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CHLO_5_115_11

Organism: Chloroflexi genomic scaffolds from RBG 5m depth

megabin RP 53 / 55 MC: 53 BSCG 51 / 51 MC: 51 ASCG 0 / 38
Location: comp(12275..17965)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
peptidase S8 and S53 subtilisin kexin sedolisin Tax=RBG_19FT_COMBO_Chloroflexi_47_9_curated UNIPROT
DB: UniProtKB
  • Identity: 100.0
  • Coverage: 547.0
  • Bit_score: 1146
  • Evalue 0.0
Putative uncharacterized protein n=1 Tax=Candidatus Cloacamonas acidaminovorans str. Evry RepID=B0VGN0_CLOAI (db=UNIREF evalue=3.3e-53 bit_score=217.2 identity=43.7 coverage=13.969425408539799) similarity UNIREF
DB: UNIREF
  • Identity: 43.0
  • Coverage: 13.0
  • Bit_score: 217
  • Evalue 3.00e+00
hypothetical protein similarity KEGG
DB: KEGG
  • Identity: 27.9
  • Coverage: 768.0
  • Bit_score: 213
  • Evalue 6.70e-52

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Taxonomy

RBG_19FT_COMBO_Chloroflexi_47_9_curated → Chloroflexi → Bacteria

Sequences

DNA sequence
Length: 5691
ATGAAACAGAAACGATTTGCATATCTTCTGGTTACTGCGTTGTTGGCTCTGATGCTAGTATCAGGGGCACTGGCGGCTGACATGAACCAGGATACCAAACCACCCGTAGACGGGGCGACAACCACGCTGGATAACAGCGGGGTTACACCCGACAAGGGCGCTCCGGAAATCCCCACCCTGCCGCCGATTGATTCGCCAGGGCTGGAGGTTGTCACAGAATACGCATTCAGCCAGCAATTGGGAACTTACACCGAAATTGCCGGCGGGACAATTCACGGTACGTCAACCAACGACGATACCAGCTTCAGTAACATCGCACTTGGTTTTGACTTTGTTTATAATGGGACAACATACACTGCCATCAGCATCCAGAGCAATGGCTTCATTGCGATGGGTACGAGCATCAGTTCTTCCTATACCCCGATCAGCAGTGGTGCTACAAATAACATCATCGCTGCTTTAGGCTTTGACATCCAGGGCAATGGCGGGACGTCCACCCTGCGCTCGGAAGTGTTAGGCAGTGCACCAAACCGCGTGATGGTTGTGCAGTGGAAAGAGTACAAGGCCTACGGTTCCAGTGGGACCGGAGACCTCTTCAACTTCCAGATCCGCCTCTACGAGGGCAGCAATCGGGTAGAGGTCGTTTACGGCGGATTCACCAAAAATGCGACCTCACGCACGCCTCAGGTTGGCTTGCGAGGCGCATCGAATGCTGATTTCAACAATCGCACATCGACGACCGGTTGGACGAACACAGTAGCCGGGACGTTGAACACCAATACGGTTACGCTGAGCACAACCTATTTACCCCCCTCGGGTTTGAACTTTGCTTGGGCTGTACTGGACATACCCAACCTATCAACTTCCTCCAAGTCAGCACAATCCATGGTAGTGGCCGGTCAGCCAATCACCTACACCATCTCCATCGTTAATACGGGGACTGAACCAGCAACTGATGCGGTCATGACAGACACTCTACCTGTGAACACAACTTATGTAGCAGGCAGCCTGTCTTGCGACAGCGGCACCTGCTGGTATGACGCCGGTACGAACACAGTGTACTGGGAAGGACAGGTAGGTCAGCCCGGACCATTAAAGGCTGCGACCGCGCCAGCAACCGTAGGCGAACCGCGATCAAGTGGTGGCCAGCCGATCGAGCTGTCGCTGAGCAATGGAGTTGCACCGGATTCGCTTGCCACGCCATGGCAGCCCACTGGTCCAGTCCAACTTATCCTGGACGATGGCTCCCGCGACAATGACATCGGACTCGGTGGAACGATCGAGATGCTCTGGCTCAACCGCTTCACCCCCAACCCTGGCGACTTCCCATTTTACCTCGACCAGGTTTCTATTTGGTTCAGCAGTGCTGGACTGGTGAATGTGGGTGACGACATTATAATCATCCTGTATGAGAATACCTCTGGGAATGCAGATCCTGCAGTTGGCTCGAACTTCCTGGCCTCCTTCCCAGCGACCATACAGGCTTTGGATCAATGGAACGACTACACCCTTGCCAGCCCGGTTACCTTCAACGGTCCGGGTGATGTGCTGGTGGGCGCAATCGCTCTGGAACTACCAATGTCCTCTTACTGGCCGGCATCCATAGACCAGACTACCACTCAGGCGCGTTCGTGGGCTGGCTGGTGGAATGCAAGCCCACCGCCCAACCCACCACTCTTGCCCCCCGAAAACTGGACCCTGATCGATGCCTACTTCCCTGGCAACTGGATGGTCCGCGCGAGTGGCCAGACTGTCGTCGTAAATGAGGTTAACATAACATTCTCAGTGATGCCCGGGGATGCTTGCGGTGACACAATCGTCAATACAGCCGTGATCAACGATCCAGCGCTACTCCAACCTGTCATCGTTGAGGCTGGGACGGTTATGTGGGACACGGTCTTCGTGGAGGAACCCTTCGAGGGCAGCTTCCCGCCCGATGGCTGGGCAGTCGCTGGTTACGGTGCAGTGTTTACCAACACTAATCCAGGAGGGCGCAGCAACTTGACCGGCGGGACCGGCCTGTTTGCCATCGCGGACGACGATATAGTAGGCTCTGGAACCGCTACAGACACCGAACTGTGGCTGCCATCGATTGACTTCCCGAGCTGCAGCGAACTGTATCTGTCGTTCAACACCGATTACTACCACCTGAGCAGCTATGCTGATGTTGACTACAGCCTGGATGGCGGCGGCACATGGAATAATATCTCCCACTGGACTGCCAGCATGCGCGGGCCACGCCTAGAGACATTCAACATCTCACCCTTCGTCAGCGGACAGAATGCGATCCTGCGCTTCCACTACAACGATGGTAATGTTTGGGCTTGGTGGTGGCAGATCGATAATGTCAAGATCACAGGCTGCGGCTATGAAGGTCTCTTCCTCACGCCAGACGTACAGTCGGGCAACACAGTTGTAGGTGATGTGAAAACTTATGACCTGAAACTAGAAAACTGCACCTTCCAGGAAGACACCTTCGCAATGCAAGCAATGGATAACGCCTGGCCGACCTGGTTCTCGGTTGAGAGTGTAGTCCTTCCACATGGCGCCAGCGCGGATCTGACGGTAAGCGTTGAGCCGTTATGCGAAGCCGAAGGAATGGACACTGCCAATCTCGTCGCCGTTGGAGAGACCTTTGGTGCAGAAGATTGGGCACAGGTCAATACGACGGTCACATCCGGCTCCTTTGCCGATGCATGGCAAAACATGGCAACCGGCGCTGAGGCAGACCTCTATTGGGGTGGCAGCTACTACTACAACGGAGAGGTGTGTGTAGTTGGCGGTCTAGCCGGAACGGGCACTATTATCGTAACCGGTGAGCACCACTGCTATAACATCGCCGCAGGCACCTGGAGCGATAAAGCATCCCTGCCCACCCCACTTATGGGAGCAGCATATGGCTTCATTGATGGCAAGTTCTATGTAGCCGGTGGGTTTGATATCAACTTCACAGGCTACAATACGTTGCAAATCTACGATCCTGCCACCGACGGCTGGACGACTGGCGCAACACTACCGTCAGCACGCGGTGGACAGGCGGGCGGCGTGGTCAATGGCATGCTGTACTCGGCGGGCGGCAGCGGCACAGCCTCCTTCCCAGTCGACTGTCCGACCTACGAGTATGATCCGGTTGCCAATAGCTGGGCAACCAAAGTTTCCTGCCCACTGCAGAGCGGTTATGGCTTTGACCTGGGCGGCAGTGTAGGCAGCAGCTATTGGGGCTTGCTGTTCGCGGGCGGGCACTTCAACGCGACTTACGGCTGGTATGCCTATGATCCAATCGCAGATTCCTGGGCGACGCTGGCGAACCTGCCGTATCATAAGACGCCGTTGATGGTCGAAGATCCGAACACCGGTATGATCTATTCGGTTGGCGGTCTGATCGGCTGGACAGGACAGTCAGACGTCTATGTTTACGACTATGTAGCTAACACGTGGAGCAATAGTCCACCCAACCTGATCACTACCCAGGGCGGCTCGCTTGGTCCAGCGCAAGGTTCGTTTGGCGATCCCGATGTCCAGGGCATCTGGACCTTGGGAGGTACGATCGGCTCTGGCGCCATTGCCCCTGCTCCGTTCGAGCTCTACCAGTACTTCGGAGGTGGGGCTGCAGAGCCGGCGTTAGTCGTTACTGCGCCAGACCTGCATGCCTATCATCTGCCTGACATGCAAAGCAGCATGATGATGAACGTTGCCAATGCCGGCACTTGCCCGCTGGAGTGGGAACTCGTCGAAGCTCCCGCCCCGTTGTATGTGCCATCAGCAGCAATCTCGGGCGGCTCACTCGTGAACCCCGGCATGACCCTGTCTGGCAATACGACAACACTGGGGATCCCGATGACTACTGCCAACCCAGAGGCTGTCCTATGGGATCAACCACTTAGCTCAGTTAACCAGGGCGCATACGTGGACCAGGAATTCACTGACTATCCGGATTTCACTTCATTCCTAGCGGATGACTTTGTGGCAGCCGACCCCTGGACGATTACCAGCATCTTCGTGCCTGGTGACGGGTGGAATGGTTTCTCGGGCCTGGGGAATGCTACTGCCTTGAGCTGGGCAATCTATGCGGATAACGGCGGGGTTCCGGCTGGCTATCCTGGCGACGGGAATCCAGCGGTATGGAGCCTCTCGCTGCCCCCAACAGATGCACAGGTTACGTTGTCCACAGGCACCCCAGGTGGATACCTATCCAATACGACCTTGAATCTGACCCCCCCGGCGACCATCCCTGCCGGACACTACTGGCTGGTGTTCTGGCCAACGATGAGCTTCAGTGGTGGCGGACAGTATGGCCGCCAACCGGCTGACACAACCAATGGCTATGTCGGGCAGTTCATCAACCCTGGTGGTGGATTTGGATTTGGTAATACATGGCAAAACTGGACAGTGATTGGACCGACCCAACAAGATATCGCCTTCCGTATCGAAGGTGAGATCATCCCTGCTTTCGACATCCCATGGTTGAGCGAAATGCCCACCTTCGGGGTCTTGCCCAGCGGTTGGTCGACAGATGTCGAAGTAACCTTTGACTCAACCGGCATGGGCGCGGGAGAATATTACGGCATGCTGAATCTATTCAGCAACGATCCTGTCGTCCCTGAATATTCGATGCCAGCACAGCTGACCGTAATGATGCCAGAGGTGCATCTCGATAAGACCGTCGGGCTGACTGAAGCAACCTGCCAGGACACGGATATCATCACTGTGGTTCCGGGCACCGAAGTAGTCTACTGTTACGAGCTAATCAACACCGGAACGTACACCATGACTACCCATGACCTGGTAGACGATATGCTGGGCGTCCTGCTCGATGACTTTGTCTATGTATTAGCTCCGGGTGAAAGCGTCCTGATCACTGAATCTGCAGTCATCAACGAGTACACTCTCAACACAGCCTACTACACTGCTACTACAGAGGTTGGAGGATTCGATGCCAGTGCACAAAATTCGGCGATCGTAAACGTGATAAATCCTGCGATCGAGCTTGAAAAGACGGTTGGTATCGATCCGAATGTGTGTGCCGCAACGGACAGCGTACAGGTCCCGGCTGGTACTGACGTCACCTACTGTTTCAAGGCTACCAACACGGGTGACGCCACACTAGCTGTCCACGACCTGGTCGACAGCGAGCTGGGCGATCTGCTCACCGACTTTGTTTACGACCTGGCGCCCGGTGCTAGTGTGTACCTCACCCAAACGGCAACCATCGTTGCAGACGTTGAGAATACAGCCACATGGACGGCCTGGTTCGACGATGTCTTATTTGCTGAAGCGACCGACACGGCGTTTGTCGACGTGATCGAACCTGCTATCGAACTGGTGAAGACGGTTGGCCTTGATCCGGAAGTATGTGCAACAACCGATGTCATCACTGTTCCAGTCGGAACAGAGGTGACTTACTGCTTCACAGTGATCAACACGGGTGATATCACGCTGACTGTCCATGACCTGTCCGATAGCGCCTTGGGAGACTTGTTCGCCGGCTTCGGGCTTGACCTGGGTCCAGGTGATAGCTACTCCTTCCTCGAGACGGTAACCGTTAACGAGGGTGTGGTGAACACTGCCACCTGGACTGCGTGGGTAGAAGCAGAAGGCTACTTTGCAGAGGCGACTGATACGGCTACGGTAAACACCTACGTACCAGTAACCTCATACTTCTACTTCTTGCCAATCAACCACAAGAAATAA
PROTEIN sequence
Length: 1897
MKQKRFAYLLVTALLALMLVSGALAADMNQDTKPPVDGATTTLDNSGVTPDKGAPEIPTLPPIDSPGLEVVTEYAFSQQLGTYTEIAGGTIHGTSTNDDTSFSNIALGFDFVYNGTTYTAISIQSNGFIAMGTSISSSYTPISSGATNNIIAALGFDIQGNGGTSTLRSEVLGSAPNRVMVVQWKEYKAYGSSGTGDLFNFQIRLYEGSNRVEVVYGGFTKNATSRTPQVGLRGASNADFNNRTSTTGWTNTVAGTLNTNTVTLSTTYLPPSGLNFAWAVLDIPNLSTSSKSAQSMVVAGQPITYTISIVNTGTEPATDAVMTDTLPVNTTYVAGSLSCDSGTCWYDAGTNTVYWEGQVGQPGPLKAATAPATVGEPRSSGGQPIELSLSNGVAPDSLATPWQPTGPVQLILDDGSRDNDIGLGGTIEMLWLNRFTPNPGDFPFYLDQVSIWFSSAGLVNVGDDIIIILYENTSGNADPAVGSNFLASFPATIQALDQWNDYTLASPVTFNGPGDVLVGAIALELPMSSYWPASIDQTTTQARSWAGWWNASPPPNPPLLPPENWTLIDAYFPGNWMVRASGQTVVVNEVNITFSVMPGDACGDTIVNTAVINDPALLQPVIVEAGTVMWDTVFVEEPFEGSFPPDGWAVAGYGAVFTNTNPGGRSNLTGGTGLFAIADDDIVGSGTATDTELWLPSIDFPSCSELYLSFNTDYYHLSSYADVDYSLDGGGTWNNISHWTASMRGPRLETFNISPFVSGQNAILRFHYNDGNVWAWWWQIDNVKITGCGYEGLFLTPDVQSGNTVVGDVKTYDLKLENCTFQEDTFAMQAMDNAWPTWFSVESVVLPHGASADLTVSVEPLCEAEGMDTANLVAVGETFGAEDWAQVNTTVTSGSFADAWQNMATGAEADLYWGGSYYYNGEVCVVGGLAGTGTIIVTGEHHCYNIAAGTWSDKASLPTPLMGAAYGFIDGKFYVAGGFDINFTGYNTLQIYDPATDGWTTGATLPSARGGQAGGVVNGMLYSAGGSGTASFPVDCPTYEYDPVANSWATKVSCPLQSGYGFDLGGSVGSSYWGLLFAGGHFNATYGWYAYDPIADSWATLANLPYHKTPLMVEDPNTGMIYSVGGLIGWTGQSDVYVYDYVANTWSNSPPNLITTQGGSLGPAQGSFGDPDVQGIWTLGGTIGSGAIAPAPFELYQYFGGGAAEPALVVTAPDLHAYHLPDMQSSMMMNVANAGTCPLEWELVEAPAPLYVPSAAISGGSLVNPGMTLSGNTTTLGIPMTTANPEAVLWDQPLSSVNQGAYVDQEFTDYPDFTSFLADDFVAADPWTITSIFVPGDGWNGFSGLGNATALSWAIYADNGGVPAGYPGDGNPAVWSLSLPPTDAQVTLSTGTPGGYLSNTTLNLTPPATIPAGHYWLVFWPTMSFSGGGQYGRQPADTTNGYVGQFINPGGGFGFGNTWQNWTVIGPTQQDIAFRIEGEIIPAFDIPWLSEMPTFGVLPSGWSTDVEVTFDSTGMGAGEYYGMLNLFSNDPVVPEYSMPAQLTVMMPEVHLDKTVGLTEATCQDTDIITVVPGTEVVYCYELINTGTYTMTTHDLVDDMLGVLLDDFVYVLAPGESVLITESAVINEYTLNTAYYTATTEVGGFDASAQNSAIVNVINPAIELEKTVGIDPNVCAATDSVQVPAGTDVTYCFKATNTGDATLAVHDLVDSELGDLLTDFVYDLAPGASVYLTQTATIVADVENTATWTAWFDDVLFAEATDTAFVDVIEPAIELVKTVGLDPEVCATTDVITVPVGTEVTYCFTVINTGDITLTVHDLSDSALGDLFAGFGLDLGPGDSYSFLETVTVNEGVVNTATWTAWVEAEGYFAEATDTATVNTYVPVTSYFYFLPINHKK*