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LAC_acetylene_scaffold_62463_2

Organism: LAC_acetylene_Syntrophobacter_fumaroxidans_62_10

near complete RP 46 / 55 MC: 1 BSCG 49 / 51 MC: 1 ASCG 12 / 38
Location: 976..6951

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Carbohydrate binding family 6 n=1 Tax=Methanosphaerula palustris (strain ATCC BAA-1556 / DSM 19958 / E1-9c) RepID=B8GK19_METPE similarity UNIREF
DB: UNIREF100
  • Identity: 31.8
  • Coverage: 1878.0
  • Bit_score: 733
  • Evalue 4.20e-208
Carbohydrate binding family 6 {ECO:0000313|EMBL:ACL17090.1}; Flags: Precursor;; TaxID=521011 species="Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanosphaerula.;" source="Methanosphaerula palustris (strain ATCC BAA-1556 / DSM 19958 / E1-9c).;" similarity UNIPROT
DB: UniProtKB
  • Identity: 31.8
  • Coverage: 1878.0
  • Bit_score: 733
  • Evalue 5.90e-208
cell surface protein similarity KEGG
DB: KEGG
  • Identity: 37.0
  • Coverage: 1212.0
  • Bit_score: 686
  • Evalue 1.30e-194

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Taxonomy

Methanosphaerula palustris → Methanosphaerula → Methanomicrobiales → Methanomicrobia → Euryarchaeota → Archaea

Sequences

DNA sequence
Length: 5976
ATGAAAAGCTTCAAACCGATTATAGTCTTGATTATGCTTCTGCTTTGCGGCCTTTCCCCGTGCTCGGGTCAGGCGGCTCCGCTGATGGGCAACGTCCAAAAGGTCGATGCGAATGCGGCTTTCGGCACCCTGCCGCTCGCCTTCGTGGAAAACCAGGGACAGATCAACCCCGGCGTCCGCTACTACTCCGCGGGAGACGGACATGTCATGTTTTTGGCGGCGGACGGTCTTTATATCGCATTCCCCGAAATTATCGAAACCACCTCGGAGAGGGGAGGTGACAAAAAATGGTCCATACAGCCAAGAATTGTCAACTTTCAGCCCGTGGGGCAGTCCGGCACCGTTCAACTCAAGGCCGAGAATCGGCAGGAGGGCGTGGCGCATTACTACATCGGCGACGATCCCGCCGAATGGAAGACCAGCGTCCCCGTGTACGGATCCGTCGTCTATCGGGAACTCTACCCGGGGGTCGACCTTCGATTTTACGGCACTGGCCGGGAATTGGAATACGATCTTGTGGTGAGGCCGGGCGGGGATCCGAATCAGCTCAGGTTTCGCTACTCCGGTGTGGAAGCCGTGGAACTCAACGTCAACGGCGACCTGGATGTGCGGGTTAGGGAAGGGCTCGTCCTCACCCAGAAGAAGCCCCTGATTTATCAGGAGGCCAACGGAGCGCGCCTCGAGCGGTCGGGACGGTTCCGCCTGGACAGCGCGGCATTGGCGACCGCGGCGACCACCACGACTTCGGCTCGTGCGCTGGCATCCGCCAAGGAGCCGCGCCTGACCACGACCTATGAAGCGGGAAAGACCCAGGAGATCGTGTTCGGGTTCGAGGTGGACGACTATGACCGAACGCTGCCCCTCATCATCGATCCGGTGATCGTTTACACCAAGTATCTCATCAGCACCGGGCAGGATTACGGCCTTTCCATCGCCACGGATTCCACGGGAGCGGCCTATCTCGCGGGCTACACCTGGCTCGGGGGAACCTACTATTACGCCCAGGTGACCAAGCTCAACACCACGGGAACCACCCTGGTCTATTCGACCACCCTCGGAGGCAACGACAACGACACCTTCGGAAACGCCATCGCCCTCGACTCGAGCAACAACGCCTACCTGGCCGGCACCACGCTTTCGACCAAGTTTCCCACCAAGACGCCATTTCAACCGTCCAAGGATCTCTACGAGGACGCCTTTCTGAGCAAACTCACCTCGACGGGCACGCTCTCCTACTCGACCTATCTCGGGGGAAGCGGCAAGGACCTCGGGCGTGGAATCAGCGTGGACACCGACGGCAGCGCCTATGTCGTCGGCGAAACCGATTCGGACGATTTCCCGACGGAAGCCCCTCTCTATGGGACGCTGGCCGGAGGCTATGACGCGTTCCTGGCCAAATTCGTCCCCGCCGGAAACCTGCTGACCTTCGCGACCTATCTGGGCGGCAGCGACAACGACTACGCGCGCGGGGTGGCCCTGGATGGAAGCAAGCGCCCCCACGTGGTGGGCCTCACCTACTCGAGCGACTTCCCCGTGACCACCACGACCACGTTCGGGGGCGTGAGAGACGCCTTCGTGACCCGGTTTCAATCCACCGGCAGCTCGGTGGTCTATTCGCGGTACCTGGGCGGCAGATCAAGTGACTCGGCCAACGCCGTGGCCGTGGATTCCTCAGGGAACGCCTACGTGGCGGGGGACTCCGATTCCTCGAACTTCCCGACCACCACGGGGGCCTACCAGACGGCCAACGCGGGACTCTTCGACGCCTTCGCGGCCAAGGTATCGACGACCGGAACGCTTACGGCGGCGACGTTTCTCGGCGGTTCCACCGCCGACGCGGCCTACGGCATCACCGTGGACTCGACCGGAAACGCCTACCTGACGGGCTATACGACCCCGACCAACTTCCCCGTCGTCAACGCCTTTCAGTCCACCAAGGATTCTTACAACGCCGCCTTCGTGTCGAAGATCGACAGCGGGTGGGCAACCCTTTCCTACTCGAGCTATTTCCTTGGAGCCACAGGGAACGACACCGCCAAAGGCATCGCCATCGATTCGTCGGGAAGCGCCTACCTGGCGGGCTATACTTCCTACGAGGGGGCGTGGAGCGCCTTCGCGGCCAAGATCGGGGACACGGCGGCCATCCAGGTGACGGCGCCCAACGGCGGAGAAACCTGGGCTCATGGCAGCACCCAGACCATTCGCTGGACCTTTTCCGGTCTCAGCGCCACGGGAACCGTCACCATCGATCTTTACAAGGCGGGGGTCTTCTCCCGAACCATCATGGCCGGCGTCTCCATTGGAAGTGGCGGAAACGGCACCTACGCGTGGGAGATTCCCTCCGACATCACCACTTCGGTGGACTACCAGGTGATGATCACGAGCGACGCCTCCCCCACCGTTTCGGACACCAGTGACGCCTATTTCGCCATCACTCTTCCTCCAGTCTCCGCGGATTTCTCGGGGACGCCCGTGGCGGGGAAGCCCCCCCTGACGGTGAGCTTCACGAACCTCTCCATCGGCGATCTGGACACCGCGTCGTGGGTTTTCGGCGACGGAGGCACCAGTACGGACTGGAATGCCACGCACACCTACAACACGGCGGGCGCCTACTCGGTCGGCCTGACCGTGTCGGGCACTCCGGGCACCGACACCGAGACCAAGACGAACTACATCCGCGTGGGCTCGATCACCCTCACGGCGCCAAACGGTGGAGAGAGCTGGGCACGGGGAACCACCCAGACGGTTCGATGGACCTACACCGGAGAGCCCGGAACCGTGGTGGGCCTCACACTCCTCCGCGGCAGCACGGCGACCGTCATCACCCCGGGGACCTCCATCGGGGCGAGCGGCGCGGGGAGCTACTCCTGGACCATCGGTTCCGAACTGGAGCCGAGCGGCGACTACAAGATCCAGGTCACCAGCAACATCGCTTCCGTCTTCAGCTCCACCAGCGCGGGCTACTTCTCGATCACGGGGCCCGGCCCGATACCAGCGTTCTCGGCGACGCCGCTCTCCGGAACGCCCCCTCTGTCCGTCGCCTTCTCGGATCTCTCGACCGGGACCCCCACCAGTTGGCTCTGGAACTTCGGCGACGGCACCACCAGCACCGAACGGAACCCCACGCACAGCTACAGCAACACGGGAAACTACACCGTCACCCTCTCGGCCACCAATGCCAGCGGCACCAACAAGAAGACCGTCGCCAACTACATCACGGTGGTGGTGCCCCCGGTGGCCGATTTCAGCGGAACGCCGCTCTCGGGAGCCTCCCCGCTCACGGTCGCTTTCACGGATAAGTCAACCGGGACTCCCACAAGTTGGCTCTGGAGCTTCGGCGACGGCGCCACCAGCACCGAACGGAACCCCACGCACAGCTACATTACCGACGGGACCTACACCGTGCGGCTCACGGCGACCAACGCTGGCGGCAGCGATGCCAAGAGCGTCGCCGGTTATGTGACCGTGGCGAGCACGCCGGTGGCCAACTTCAGCGGCACGCCCCGGAGTGGCGAGCCACCTCTTTCGGTGGGCTTCACGGACCTTTCCACCAACTCTCCCACAAGCTGGCTTTGGGCTTTCGGGGACGGCACCACCAGCACCGAACAGAACCCGACGCACAGCTACCGGCTCGAGGGCACTTACACCGTGAGCCTCACGGCGACCAACGTCGGGGGGTCCAACACCAGGACGGTCTCAAGCTACATCACGGTGAGCGCCAAGGCCCCCGAGGCCGATTTCACGGCCACTCCCGTTGCCGGCCTCGCTCCTCTCGCGGTCACTTTCTCGGATGCGTCGACGGGTAGCGTCACGAGCTGGGAGTGGGATTTTGGAGACGGCAGCGCCAGGAGCACGACGCGCAATCCCGTTCACACCTATACGAAGCCCGGCAAATACACGGTGACCCTCAAAGTGAGCGGTGCCCAGGGAAGCGCCACGAAAGTCGCCACCGACTTCATCACGGCCGAGGGCATCACCGTCAGCGCGCCCAACGGCGGTGAGACGTGGGCCATCGGAAGCACGCACAACGTCACCTGGACCACCGTCGGCGATCCGGGTTCGACCGTCCGCATCCGGCTCATCAAGGGCGGCGCCATCGTCGGGGATATCGTGAACAGCACCTCGTCGGGAAGTGGAGGCGCGGGGTCCTATTCCTGGACCATTCCCACCAACCGCGCGGCGGGAACGAACTACAGAATTCGCGTTGTCAGCCGCACCAACTCGTCCATAGCCGATACCAGCGATGCCAATTTCACCATCGCTCCGGCCGTTGTGGCGGGCTTTCACGCCGACTCGACCTCTGGAGCGCCGGCTCTCGCGGTTCAGTTCACCGACGATTCCACAGGAACGGTCACCGCGTGGAACTGGGATTTCGGAGACGGAGGAACCAGCACCGCTCGGAATCCGTCACACACCTACAGGATCTCGGGCACCTATTCCGTGACACTCACGGCCACCGGGCCGTCCGGGTCGGATACCTATACGCGGACCGATTACATCACGGTGGCCGCCGCCACCCCGACCGTACATTTCATCGGATCGCCCCTGAACGGCGAGGCCCCTCTCTCCGTCCAGTTCACCGACCTCTCGATAGGGAGTGTCACGGGCTGGGCCTGGACTTTCGGAGACGGGGGAACCAGCACCGAGCGGAACCCGGCTCACAGTTACACCACAGCGGGTACCTACTCGGTGACCCTCGTGGTGACCTATTCGGGCGGCACCCGCACCCGCACCCAAACGGGCTACATCACCGTAACCGCGCCCGTCGCACCGGTGGCGGATTTCACCGGAACCCCCACATCGGGAACCGCCCCCCTCGACGTCCAATTCACCAATGCTTCCACGGGAACCATCACAAGCCATGCCTGGGACTTCGGTGACGGCTCCACCAGCAGCGAAACGAGTCCCACCCATACTTTCCGGCTGGCAGGCACCTACACGGTAAAATTGACCGCAACGGGGCCGGGCGGATCCAACACCAAGACGCGGACCGGTTACATCACGGTTCCCGCCGCCGCGCCCACAGCCGATTTTTCGGGGACCCCGACCAGCGGCGCCACACCGCTTGCCGTCGCGTTCACGGATCTTTCCACCGGTACCGTCACCGCCTGGAGTTGGAACTTCGGGGATTCCGGAACGAGCACCACCCGGAACCCTTCCCACACCTACACCTCGCCGGGGAGTTACTCCGTGACCCTGGAAGCGAGCGGAGCGCAAGGTAGCGCTTCCATCACCAAGACCGGTTACATCGATGTGAACGGCATCAAGATCACTTCGCCCAACGGGGGAGAATCCTGGCCGGCGGGGAGCACGCACAACATCACCTGGAACTATCACGGAAGCCTGGGCTCGACCGTCAAGATCCAGCTCTACAAGGGCTCCACTCTCCAGCAGGATATCGCCACGGCGGTTCCCATCGGAACGGGTGGAACGGGCACCTACAGTTGGGCAATCCCCCTGCAACTCACCGTGGCGACGGACTACCGCATCCGGATCTCGAGCACGACTTCGCCCAGCTACGTGGATTTCAGCGACGCCACCTTCTCCGTGACGGAACCCAGCCCGCAGGCCGACTTCACGGGCACTCCCGTGGCGGGCGTGGTGCCCCTCACCGTGGTCTTCACCAACACCTCCGTCGGGAGTGGAATCACAAGCTATTCGTGGACCTTCGGGGACAACACCTCGAGCACTCAAGAGAACCCCGCACACACCTACACGGCGGCGGGGACCTACACGGTTTCGCTGACCATCACCTGGAGCGGCGGGACACACACGACGACCAAGACGGACTACATCATCGTGGCCGACGGCCCATTCCTCCTGCTCACCGCGCCCAACGGCGGCGAGTCATGGGCGGCGGGGTCGACCCAGTCCATCACCTGGACCTACGGCGAAGACCTGGACACCGGGCTGCCCGGGCCCACGGTTCGCGTCCAGCTCATGAAGGCGGGCGTCGCCATTTCGACCCTCGCCACC
PROTEIN sequence
Length: 1992
MKSFKPIIVLIMLLLCGLSPCSGQAAPLMGNVQKVDANAAFGTLPLAFVENQGQINPGVRYYSAGDGHVMFLAADGLYIAFPEIIETTSERGGDKKWSIQPRIVNFQPVGQSGTVQLKAENRQEGVAHYYIGDDPAEWKTSVPVYGSVVYRELYPGVDLRFYGTGRELEYDLVVRPGGDPNQLRFRYSGVEAVELNVNGDLDVRVREGLVLTQKKPLIYQEANGARLERSGRFRLDSAALATAATTTTSARALASAKEPRLTTTYEAGKTQEIVFGFEVDDYDRTLPLIIDPVIVYTKYLISTGQDYGLSIATDSTGAAYLAGYTWLGGTYYYAQVTKLNTTGTTLVYSTTLGGNDNDTFGNAIALDSSNNAYLAGTTLSTKFPTKTPFQPSKDLYEDAFLSKLTSTGTLSYSTYLGGSGKDLGRGISVDTDGSAYVVGETDSDDFPTEAPLYGTLAGGYDAFLAKFVPAGNLLTFATYLGGSDNDYARGVALDGSKRPHVVGLTYSSDFPVTTTTTFGGVRDAFVTRFQSTGSSVVYSRYLGGRSSDSANAVAVDSSGNAYVAGDSDSSNFPTTTGAYQTANAGLFDAFAAKVSTTGTLTAATFLGGSTADAAYGITVDSTGNAYLTGYTTPTNFPVVNAFQSTKDSYNAAFVSKIDSGWATLSYSSYFLGATGNDTAKGIAIDSSGSAYLAGYTSYEGAWSAFAAKIGDTAAIQVTAPNGGETWAHGSTQTIRWTFSGLSATGTVTIDLYKAGVFSRTIMAGVSIGSGGNGTYAWEIPSDITTSVDYQVMITSDASPTVSDTSDAYFAITLPPVSADFSGTPVAGKPPLTVSFTNLSIGDLDTASWVFGDGGTSTDWNATHTYNTAGAYSVGLTVSGTPGTDTETKTNYIRVGSITLTAPNGGESWARGTTQTVRWTYTGEPGTVVGLTLLRGSTATVITPGTSIGASGAGSYSWTIGSELEPSGDYKIQVTSNIASVFSSTSAGYFSITGPGPIPAFSATPLSGTPPLSVAFSDLSTGTPTSWLWNFGDGTTSTERNPTHSYSNTGNYTVTLSATNASGTNKKTVANYITVVVPPVADFSGTPLSGASPLTVAFTDKSTGTPTSWLWSFGDGATSTERNPTHSYITDGTYTVRLTATNAGGSDAKSVAGYVTVASTPVANFSGTPRSGEPPLSVGFTDLSTNSPTSWLWAFGDGTTSTEQNPTHSYRLEGTYTVSLTATNVGGSNTRTVSSYITVSAKAPEADFTATPVAGLAPLAVTFSDASTGSVTSWEWDFGDGSARSTTRNPVHTYTKPGKYTVTLKVSGAQGSATKVATDFITAEGITVSAPNGGETWAIGSTHNVTWTTVGDPGSTVRIRLIKGGAIVGDIVNSTSSGSGGAGSYSWTIPTNRAAGTNYRIRVVSRTNSSIADTSDANFTIAPAVVAGFHADSTSGAPALAVQFTDDSTGTVTAWNWDFGDGGTSTARNPSHTYRISGTYSVTLTATGPSGSDTYTRTDYITVAAATPTVHFIGSPLNGEAPLSVQFTDLSIGSVTGWAWTFGDGGTSTERNPAHSYTTAGTYSVTLVVTYSGGTRTRTQTGYITVTAPVAPVADFTGTPTSGTAPLDVQFTNASTGTITSHAWDFGDGSTSSETSPTHTFRLAGTYTVKLTATGPGGSNTKTRTGYITVPAAAPTADFSGTPTSGATPLAVAFTDLSTGTVTAWSWNFGDSGTSTTRNPSHTYTSPGSYSVTLEASGAQGSASITKTGYIDVNGIKITSPNGGESWPAGSTHNITWNYHGSLGSTVKIQLYKGSTLQQDIATAVPIGTGGTGTYSWAIPLQLTVATDYRIRISSTTSPSYVDFSDATFSVTEPSPQADFTGTPVAGVVPLTVVFTNTSVGSGITSYSWTFGDNTSSTQENPAHTYTAAGTYTVSLTITWSGGTHTTTKTDYIIVADGPFLLLTAPNGGESWAAGSTQSITWTYGEDLDTGLPGPTVRVQLMKAGVAISTLAT