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RIFOXYA2_FULL_Elusimicrobia_related_50_26_rifoxya2_full_scaffold_1172_9

Organism: Elusimicrobia bacterium RIFOXYA2_FULL_50_26

near complete RP 47 / 55 BSCG 46 / 51 ASCG 11 / 38
Location: comp(6916..11766)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
multi-sensor signal transduction multi-kinase Tax=RIFOXYB2_FULL_Elusimicrobia_50_12_curated similarity UNIPROT
DB: UniProtKB
  • Identity: 100.0
  • Coverage: 999.99
  • Bit_score: 3164
  • Evalue 0.0
serine/threonine protein kinase id=1873400 bin=GWD2_Clostridiales_32_19 species=unidentified genus=unknown taxon_order=unknown taxon_class=unknown phylum=unknown tax=GWD2_Clostridiales_32_19 organism_group=Firmicute organism_desc=a85 similarity UNIREF
DB: UNIREF100
  • Identity: 36.8
  • Coverage: 999.99
  • Bit_score: 1081
  • Evalue 0.0
multi-sensor signal transduction multi-kinase similarity KEGG
DB: KEGG
  • Identity: 25.5
  • Coverage: 999.99
  • Bit_score: 435
  • Evalue 7.10e-119

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Taxonomy

RIFOXYB2_FULL_Elusimicrobia_50_12_curated → Elusimicrobia → Bacteria

Sequences

DNA sequence
Length: 4851
ATGCCGCTGCTGCGAGCCGGTTCCACTGTAAACCTCAGATATAAAATTCTCGGTCTTATCAGCGAGGGGGGAATGGGTGTTGTGTACAAGGGCGAGGATCTCCAAAAAAAGCAACCTGTAGCGATAAAATTCCTTAAACAATCTGTCGCAACATCTTATTCCGAGGCCGCGCTCCGCTTCAAAAATGAGATCAGGGCGATAAGCACGTTCGAACACGACAACATAGTGCGCTTGTTAGACAGCGGCGAACATGAAACGCTTCCTTACCTGGTAATGGAATACGTGGAAGGCGAAAGCCTTTCGGATATAATAAAAAACAAGAAGGAAATACCTTTGGATTTTTCCATAGGCGTTGTGCGCCAAGCCGGGGAAGCATTAAGCTACGTACATACTCACGGCATACTTCACCGCGATTTGAAACCGGGCAACATACTCATAAAAGAATTCAGCGGACAGAAAATAACCAAGCTGCTTGACTTCGGGCTTGCCCTGCTTGCAACGCCTTCTGAAACCAACAACAACGACGATGTTACCGGAGCCTACGCTTACATGTCGCCGGAAATAGCCGGGGTAATCAACAAAAAGGTTGACGAACGAAGCGACCTCTACTCCCTGGGCGTCATTCTCTATCAACTGCTTACCGGCCAGCTTCCCTTCAAGGGAAGCACCGCCGAAAAGATGATTCACCAGCAGATCGCCTTTACGCCGGAACGCCCGGGCATATTGCGCCATGGCATTCCGCCCGTCATAGAAGAGATAACAATGAAGCTGCTTATGAAAGACCCGGGTTTGCGTTACCAGAGCGCCAAGGGACTTGTCTACGACCTGTATAAAATCCAGCGGGGTGAGAAGAATATAATAATAGGTGAACGCGACCAGAAAATAAAACTGACTTACCGCACGGAACTTATCGGCCGCGACGATGTCATGGAAAACATGGCGCACCTTGTGGGCAAAGCGATGGCCTCGCAGGGAACGGTCATGCTTGTAAGCGGCGAGGCGGGGCAGGGCAAGAGCAGAATCGTCGAAGAAGTAAGTAAAAATGTTACCAGCAGCGTGGCGGGGCTTTTCCTTCGCGGCCACTGCATAAACCAGGAAAACAAAATACCTTACCAGCCGCTGCGCGACGCGCTAAACGACTATGTCCGGCACCTTGAATCACTCGATGAAAACATTAGAAATAAAGAATTGAAAGCCATTCAAGCCATGTCCGGCGAAAGCATAGAAATAATAACGCAACTATGCCCTCAGTTAAGCAAATACCTTGGCGAACCGAAAAACGATTTTACAACCGATACCACAAGGGAAAACCAGTTGTTTCTCGCGGCAGCTTCCGATTTTCTATTCCGCATTTCCTCGGAAAACAGACCATGTATCATATATTTGGACGATTTGCAGTGGAGCGATAACGCAACCATCGCCCTGCTGGAATACATGGCCTCAAAAATAAAAGAATATCCGCTTTTAATACTGGGAACGTACCGCACAAGCGATGTTACAGGCACGCACCCGCTGCAGCTCCTGAAAGATGAAGCAAGGGACAAGGGCTACCCTCTGCGCGATATGCGCCTGCAGCCGTTGGGACAGGCGCACATGCGCAAACTTGTCGCGTGCCTGCTCGGGGCAAATGAAAGCTCATTCAGTGAACTTTCAGCCTTCATACGGGAAAAAAGCGGCGGCAATCCGCTTTTTGCCATTAACATGCTGCGCAACCTGGTGGAAGAAAAAGCGTTGTTATGGAAAGACGGCGCCTGGGAAGAAAATTGGGACCGCATTCGCAGGATGTCTGTTACTAATAACGTAGCCGATGTATTGCTCAAGCGCACCGGCGAGTTAAATTCCGAGGAGACGGAACTGCTTTCCGTAGCCGCGGTAATCGGGCGTGAATTCGATACAGTGGTCATGCACCGCGTTACCGGCAGGCCAAAGGAAGAAATAGGGCGCATAATCGCCGATACGATCGCGCTGCAAATAGTGGAAGAAGGCAGGGAAAAAGGCACTTTCCGCTTCACGCATGAAAGTATCCGCAACGCATTCCTGGAAAAACTCGATGCGCCCGAGAAGAAACGGCTGCACCTTGCCATCGCCTCTGCCATTGAGGAACTTAACAAGGATTCCATATACCCCGTTATATACGATATAGCCTACCACTACACCGAAAGCGGAAACAACCAGAAGGCGCTGCAATACGCCATACCGGCCGCGAAGAAAGCCAGGAACTCGCACGCAAACGAGGAAGCCGCATGGTATTTCAAAGTTGCGATAGGCATACTGGAAGCCGAGGGGAAACAATCTCAACAAGAATGGCTCCGCCTCAAGGAAGAGCTGGCCGACGTCTACCTTGTATCCGGCTCCAGCGACAAGGCGATAGAAATATGCGAAGACATAATGGAGTTCGAGGAAAATGACCTGCTTGCACGGGTGGCACTATACAAAAAGCTGGGCATCGCATACTTTAAAAAAGGCAACATGGAGCTTGCTGAACAGTATTTCTGCGATGCCCTTTCGCTGCTCGGCCATAAATTGCCGCGCAAAAAGCTGCAACTGTTAGACCACATAGCGACGAATCTTTTACTTCACATGCGCAATTTAATCGCCCTGCGGCTGTTCAAAATAACGCCGCCGGAAAAACTCGGCGCAACCGACAATGAAATAGCGCGCATATACCTGCACCTGGTCCGGATATATGCCATGAGCGACGGTGTAAAATTTTCAGAGCGCGCGTTGCGCCTGCTTACCATGATGGAAATGCGCACGCGCAAATCAAAAGAACTGGGGCAGGCATTCGCCGAGTACGGCCTTATGCTCTGCTCGCTTACGCTCTTCAAGGCAGGCAACCGTTACCTTGAAAAGGGAGTACGGGTAGCAGGCGAATTATTCGATGAATGGGGCATGGCGCGGGCGCTTGTATTCCGGGGCTATTACTATCACTGGAAAGGTGAATACGATAATGCCATCAACACCCTTGACAAGGCAAAAGACATTTTCAAACGCATGGGGGATATGTGGGAAACGGGTTCCATCCTTCTAAATCTCGGCATCGCCTGCTTCCATAAGGGCGAACTGAATTTCGCCATGGATTACTTCTCACAATCCTACGACATCAGCTCGCGGATTAAGGACGATTGCGGTATTTCAGCGTCCCAGAGCTGGCTGGCGCTTACCTGCAAGGAAAAAGGTGAATTTGCGCGGGCAGATGAATGGAGCAAAAAAAGTATTCAGTTAAGCCGTGACAGGCGAATCTTTTTTAACTATTGCATAGCCCTCGCCTATGCCGGATCGCTTCATCTTGCCCAGGGCAGGTACGATGACGCCGTTCAATCGCTTGAACTTGCCCGTAAAAAAGAAAAAGAACGGCGATACATGAAAGACTACGTTACGTTCCTCTACCCTGAACTGCTTGACGCGCGCATAGAGCGCTACCGTAACGGCATGTTATCAAGCGAAACAAGAGCCGCGGAATTAAAGAAAATCCGCTCGGCCGCGCGCGAAGCGCTGTACCATACCATTAAATGGGTAAATCAGTATGCGGTAACGTTACGCGTTCTTGGAAAATATTATGCTATTACAGGCAAACGAAACCGCGCAGAACACTCTTTTCTAAAAAGCATCGAATTGATGAAAAACGGCAACCGCCAGGTAGAGCTTGGCAAAAGCTATTTCGAATACGCCCTGTTCCTGGAATCCATAAAAGAAACCGAACGCGCTCAAACCCATTTACGCAAGGCATACGGTATATTTTTTAACGCCGGCGCCGAATTCTACACAACGCGAATAGGCCGTCTCCTCGGCATAGCCGCCGGCGACCATGCCGGGAACTGCGCCTCGAAGGATACGCCCACGCCCGTTCAATCCACGCGCCTTAAACTGGAACGAAGGCTCAATGCCGCCGTGGAAATCAGCAGGTATTTAAGCTCGCTTCTAAACATTGACGGGCTACTTGACAAACTTCTTGAATCGGCGATGGAGCTTGTGGGCGCCGAGCGCGGAATGCTGTTTCTGAAGGAAAACAATAAGCTTGAATTGAAAGGTTCAAAAAACATAGGCGGCGGTGGCTTTGACCAGGAGAAATATGCCATCAGCCGCGGCATTATTTCCCGCGTTGAGGAAACCGGTGAACCTGTAGTTCTCGATGACGCTGGCAAAGATCCGGAATCGGGCGCAAACGAAAGTGCCGCGCTTTCGCGGTTGAAGTCCGTCATCTGCGCGCCCATCGTTGTCCGCGATGAGATGATCGGCATACTCTACCTTGATAACCGCCTGGTCAGCGGGCTTTTTACATCGGACGACCTTAAAGTTCTTGACATGATAACCCGCCAAGCGGGCATCTCGATAGAAAACGCGCGGCTTTACAGCAAGGCGGTAACCGACGGCCTTACCGATTTATATAACCGCATCTTCTTCGAAAGCCACCTGACGGAGTGTCTCAACACCAGCCAGCGCTACAACTCTCGAATGGCGCTGATGATGATTGACATTGACCATTTCAAGAAAATAAACGACACACTGGGCCACCAGGCCGGGGATGCGGTGCTGAAACTGATAGCCAAAACTCTGCGCGCCGGCGTGCGCAAAAGTGATGTTGTGGCGCGTTTCGGCGGCGAAGAGTTTGCCGTTATCCTGCACGAAACAACTATTGACATGGCGCGCAGCGTGGCCGAAAAACTTCGGGAAATGGTTGCGGCAAAGGAAATCGCTTACAATAACGGCACGTCAATACCCGTAACCATAAGCATCGGAATAACCGAGGCATTAAAAACGGATACCATAACAACGCTGATTGAACGCGCCGACAAAGGGCTTTACCAGGCCAAACACCTGGGGCGCAACCGTGTGGAGGAGTCAAAGTGA
PROTEIN sequence
Length: 1617
MPLLRAGSTVNLRYKILGLISEGGMGVVYKGEDLQKKQPVAIKFLKQSVATSYSEAALRFKNEIRAISTFEHDNIVRLLDSGEHETLPYLVMEYVEGESLSDIIKNKKEIPLDFSIGVVRQAGEALSYVHTHGILHRDLKPGNILIKEFSGQKITKLLDFGLALLATPSETNNNDDVTGAYAYMSPEIAGVINKKVDERSDLYSLGVILYQLLTGQLPFKGSTAEKMIHQQIAFTPERPGILRHGIPPVIEEITMKLLMKDPGLRYQSAKGLVYDLYKIQRGEKNIIIGERDQKIKLTYRTELIGRDDVMENMAHLVGKAMASQGTVMLVSGEAGQGKSRIVEEVSKNVTSSVAGLFLRGHCINQENKIPYQPLRDALNDYVRHLESLDENIRNKELKAIQAMSGESIEIITQLCPQLSKYLGEPKNDFTTDTTRENQLFLAAASDFLFRISSENRPCIIYLDDLQWSDNATIALLEYMASKIKEYPLLILGTYRTSDVTGTHPLQLLKDEARDKGYPLRDMRLQPLGQAHMRKLVACLLGANESSFSELSAFIREKSGGNPLFAINMLRNLVEEKALLWKDGAWEENWDRIRRMSVTNNVADVLLKRTGELNSEETELLSVAAVIGREFDTVVMHRVTGRPKEEIGRIIADTIALQIVEEGREKGTFRFTHESIRNAFLEKLDAPEKKRLHLAIASAIEELNKDSIYPVIYDIAYHYTESGNNQKALQYAIPAAKKARNSHANEEAAWYFKVAIGILEAEGKQSQQEWLRLKEELADVYLVSGSSDKAIEICEDIMEFEENDLLARVALYKKLGIAYFKKGNMELAEQYFCDALSLLGHKLPRKKLQLLDHIATNLLLHMRNLIALRLFKITPPEKLGATDNEIARIYLHLVRIYAMSDGVKFSERALRLLTMMEMRTRKSKELGQAFAEYGLMLCSLTLFKAGNRYLEKGVRVAGELFDEWGMARALVFRGYYYHWKGEYDNAINTLDKAKDIFKRMGDMWETGSILLNLGIACFHKGELNFAMDYFSQSYDISSRIKDDCGISASQSWLALTCKEKGEFARADEWSKKSIQLSRDRRIFFNYCIALAYAGSLHLAQGRYDDAVQSLELARKKEKERRYMKDYVTFLYPELLDARIERYRNGMLSSETRAAELKKIRSAAREALYHTIKWVNQYAVTLRVLGKYYAITGKRNRAEHSFLKSIELMKNGNRQVELGKSYFEYALFLESIKETERAQTHLRKAYGIFFNAGAEFYTTRIGRLLGIAAGDHAGNCASKDTPTPVQSTRLKLERRLNAAVEISRYLSSLLNIDGLLDKLLESAMELVGAERGMLFLKENNKLELKGSKNIGGGGFDQEKYAISRGIISRVEETGEPVVLDDAGKDPESGANESAALSRLKSVICAPIVVRDEMIGILYLDNRLVSGLFTSDDLKVLDMITRQAGISIENARLYSKAVTDGLTDLYNRIFFESHLTECLNTSQRYNSRMALMMIDIDHFKKINDTLGHQAGDAVLKLIAKTLRAGVRKSDVVARFGGEEFAVILHETTIDMARSVAEKLREMVAAKEIAYNNGTSIPVTISIGITEALKTDTITTLIERADKGLYQAKHLGRNRVEESK*