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RifSed_csp2_16ft_3_scaffold_3025_14

Organism: RifSed_csp2_16ft_3_Methanoperedens_45_12

near complete RP 32 / 55 MC: 3 BSCG 28 / 51 ASCG 37 / 38 MC: 1
Location: comp(15367..19188)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Cell surface protein Tax=Methanosarcina barkeri (strain Fusaro / DSM 804) RepID=Q467W6_METBF similarity UNIREF
DB: UNIREF100
  • Identity: 26.7
  • Coverage: 937.0
  • Bit_score: 253
  • Evalue 1.10e-63
Uncharacterized protein {ECO:0000313|EMBL:KKM88516.1}; species="unclassified sequences; metagenomes; ecological metagenomes.;" source="marine sediment metagenome.;" similarity UNIPROT
DB: UniProtKB
  • Identity: 31.8
  • Coverage: 781.0
  • Bit_score: 308
  • Evalue 2.30e-80
Cell surface protein similarity KEGG
DB: KEGG
  • Identity: 26.4
  • Coverage: 977.0
  • Bit_score: 259
  • Evalue 3.20e-66

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Taxonomy

marine sediment metagenome

Sequences

DNA sequence
Length: 3822
ATGGAAGGGCGCATAGAGTTTCTCGAGGGAGGTCGGGAAACTAATCAATGTTTGTTAATTGAAGCGGGTTTACACAAAAACAGTCGAGTGGGTGGAGAAATGATTAAAAACATAACTGGAAGAAGATGCTTCATCAAATTTGTGATTATCACTTCGCTTGTGCTCCTCTTCGCCAATAGCACTGAAGCACAGACGAATATCAGCAACTGTATAGAAATCTCCTCGCAAGGCGAGTATGTTCTCAATTCGAACTTAACGAATTCCACAACATGTATCAAAATTACTTCAAACGACGTTATTTTCGACGGCGCAGGCTATCGGATTAATGGAACGGGCTGGATTAATGGAACAACAGGCAAACTTGACACCAAGGGCATTTCTGTCGAAAATTCCTTGACAAATGTCACTGTAAAGAATATTACACTAACAAACTGGTATTATGGTATCTATGTGATCTCTTCCAGCAATATCTCATTGAGCGGGAACAATGCATCAAACAACTTTGAAGGCATTTCTCTGGCTTTTTCAAGCAATAACATGCTGATTGGTAACAATGCATCGAACAACTTCAGAGGCATTTATCTGGCCTCTTCAAACAACAACACGCTGATTGATAATAATGCATCAAACAACTTCGAAGGCATTTATCTGGCCTATTCTAGCAACAATAACACACTGAGTGGCAACAATGCATCGTATAACTATAATGGAATTCATCTGTACCAGTCAAGTAATAACAATTTGAGCGGGAACAATGCATCGTACAACTTCGAACAAGGAATTTATCTGTCCTACTCAAGCAACAATAACACACTCATCGGCAACAATGCATCGAACAACTTCGAAGGAATTTACCTGGTCTCCTCGAGAAACAACACTCTTAGTGGCAATAATATGTCAGAAAATGTATATAACTTTGATCTTGAAGGTTGTGCTATCGAACAACAAATCAACGAAGATACCTCACCTAATACCTCACCTGATCCTTACTTTCCGATACCGCCATACAACACATTTGCTACCTATAACAGTCAACCCTCCTCCTGTTCAATATTAGATGATTACATTCAAAAAATAGATACTACTAACAGAGTGGACGGAAAACCAATTTATTATTGGGTTGATGAAAAAAATAAGCAAATTTCAGATGATGCCGGCTATGTAGGTATTGTAAATTCTACAAATATAACAGTGAAAGATTTGACATTGAATTATAACGGTCAAGGTATTCTATTTGTAAGCACTGATAATTCCATGATAGAAAATGTTAGTATCTCAAGCAATTACGTTGGTATCTATCTTGCCTCTTCAAATAACAACACCCTGAGCGGGAACAACGCATCAAGCAATTATAGTATTGCTTTGTATAATTCAAACAATAATACACTCCACGACAATAAAGTATTGAACAAATACGATAGAATTTATCTATTTTCTTCAAGCCACAACAAACTGACCGGCAACGATGCATCGATTAATCTATCTTCTTCAAGCTACAACACACTGACTGGCAACAATGCACCGATTTATCTATCTTTTTCAAGTGACAGCAACATGCTAAGCAGCAACAATGCATCGATTAATCTGTCTACTTCAAGCGGCAACACCCTGAGCGACAACAATGCATCAAATAGCTACGAATATGGGATTTATCTATTCTCTTCAAATGATAGCACACTGATTCGAAACAATGCATCCAATAACTACAAAGGGATTTATCTGGCCTCTTCAAACAACAACACGCTGATTGATAACAATATGTTGGAAAATGTATATAATTTTGGTGTTACGGGTGAAACACCTGATGATTACATGCACACAATAAATACTACTAACAAAGTGAATGGAAAACCAATTTATTATTGGGTTAATGAAAAAGATCGGCAAATTCCAAATGATGCCGGCTATGTGGGTATTGTAAAATCCACAAACATAACAGTGAAAGATCTGACTTTAAAGAACAACGGTCAAGGCATTCTATTTGTAAGCTCAAACAACAACACGCTTAGTGGCAACAATATGTCAGAAAATGAATATAACTTTGATGTTATTGGTGAATACAATCACACCATAGATACTACTAACAAAGTGGATGGAAAACCAATTTATTATTGGATTAATGAAAAAGATCGGCAAATTCCAAATGATGCCGGCTATGTGGGTATTGTAAATTCCACAAACATAACGGTGAAAGATTTGACTTTAAAGAATAACGGTCAAGGCATTCTATTTGTAAGAACTAATAATTCCAGGATAGAAAATGTCAGTATCTCAAACACCAGCACAGGTATCTATCTGTTTTCCTCAAGCGACAACATGCTGAGCGGCAACAATGCATCAAACAACGCCTTGTGGGACTTCTACTCAAAATCAAATTCACTAAATAATACTGTGATTAATCTTACCATAAATCCAACGATTTCGTTCACAGGCAAGGACATTGCAATAAAATCGGTATCTTCACCTAATATCGACCCCATCGGTCTTAAAAATATGAGTATATACCTAAATGCCATAAGTAATAGTGATGATGATTCATGGCTCTTCCTGAACGTGAGTTATGGTAATAGCAATGTAACAATAGAGAATGAAAGCCTGCTTAGATTTTGGAGGTACGCAAAAGCGGAGGCCTCGTTCTGGATGGTTCCTGAGCAGAATGGTACTGATACAGTACAGAAATATGTATATGCAAACATTACAGGTTTCGGTATCTTTGCGCCGATGTTCCCTTCTCAATATTCGTTTAACTGGGATGAAGTTCCAGGAAATGATACCAAATCATTCATAAACTTTTTAAAATATTATTGCTCTTGTGATTGGGTAGAAACAGCTACAATCAACAAAACCGAAGAGTTTAAAATAGTAGTATATGATGAAAAATATTATGTGGATGTGTCCCTTCAAGACGTCCAAGAACTACCTGGAAAAGTAATACGAATTACTTATGATGGCATCAATCAAAAAATATCTGTTATAACAGTAGATGGTAAATTAATACCAGTTTACGCTACAGCAACTGGCCCGGGTCAGCTTCTAAAACCTCATTCGTACAGGGCCAGTTCTTATACAGGCCCCGGTGAGGCTGGCAATGGTGGGACTTATACAGGTACTGGTAGTGCTGGCAGTTATGGGGACGGCGGAGGCGGTGGTGGAGGCGGTGGCGGAACCTCTGGTGAAAATTACACAAATATCGAAGTAAGAGAGAACTATTATGAAACGATCTTCAAGGACAAGGTCACGTCATACAGATTCACTAACAAAAGCAATCCAGTATTGTTCATTAATATAACTGGCAATGTCAATGCAGGATTGATCAATACCATGGTAGAGGTGTTGAGAGACACTTCAACTCTTATCAAACCCAAGACCTCTGCCCCTGGTATTGTATATAAAAACATTAACATCTGGGTCGGAACCACAGGTTTCGCAGTACCAGAGAATATAAAAGAAGCTGTTATTAGATTCAGAGTTGAGAATACATGGCTCAGTGATAACAACGTTACCAGTACTGAAGTCAAGCTGGTCAAATGGGACGGAAGCAAGTGGATAACACTGGAAACCTCGGAAAAGATGAAAGACAGCACAAATACTTACCTTGAGGGGAAGACCGACAGCTTCTCATCGTTTGCAATAACAGGCATGAAAGAAACAGTACAGATGGCAATACCGACAGCAACAATAACCTCACCTGAGCCTACTCTGACAGTTACTACGGGAATGCCTGAAGCAAAACCATCTATGAATTGGGCCCTTATAATTGGCGTTTTAAGTCTTATTGCCATAATGGCAGTGCTATACATGCTGTATCTCAAGAGGAAATAG
PROTEIN sequence
Length: 1274
MEGRIEFLEGGRETNQCLLIEAGLHKNSRVGGEMIKNITGRRCFIKFVIITSLVLLFANSTEAQTNISNCIEISSQGEYVLNSNLTNSTTCIKITSNDVIFDGAGYRINGTGWINGTTGKLDTKGISVENSLTNVTVKNITLTNWYYGIYVISSSNISLSGNNASNNFEGISLAFSSNNMLIGNNASNNFRGIYLASSNNNTLIDNNASNNFEGIYLAYSSNNNTLSGNNASYNYNGIHLYQSSNNNLSGNNASYNFEQGIYLSYSSNNNTLIGNNASNNFEGIYLVSSRNNTLSGNNMSENVYNFDLEGCAIEQQINEDTSPNTSPDPYFPIPPYNTFATYNSQPSSCSILDDYIQKIDTTNRVDGKPIYYWVDEKNKQISDDAGYVGIVNSTNITVKDLTLNYNGQGILFVSTDNSMIENVSISSNYVGIYLASSNNNTLSGNNASSNYSIALYNSNNNTLHDNKVLNKYDRIYLFSSSHNKLTGNDASINLSSSSYNTLTGNNAPIYLSFSSDSNMLSSNNASINLSTSSGNTLSDNNASNSYEYGIYLFSSNDSTLIRNNASNNYKGIYLASSNNNTLIDNNMLENVYNFGVTGETPDDYMHTINTTNKVNGKPIYYWVNEKDRQIPNDAGYVGIVKSTNITVKDLTLKNNGQGILFVSSNNNTLSGNNMSENEYNFDVIGEYNHTIDTTNKVDGKPIYYWINEKDRQIPNDAGYVGIVNSTNITVKDLTLKNNGQGILFVRTNNSRIENVSISNTSTGIYLFSSSDNMLSGNNASNNALWDFYSKSNSLNNTVINLTINPTISFTGKDIAIKSVSSPNIDPIGLKNMSIYLNAISNSDDDSWLFLNVSYGNSNVTIENESLLRFWRYAKAEASFWMVPEQNGTDTVQKYVYANITGFGIFAPMFPSQYSFNWDEVPGNDTKSFINFLKYYCSCDWVETATINKTEEFKIVVYDEKYYVDVSLQDVQELPGKVIRITYDGINQKISVITVDGKLIPVYATATGPGQLLKPHSYRASSYTGPGEAGNGGTYTGTGSAGSYGDGGGGGGGGGGTSGENYTNIEVRENYYETIFKDKVTSYRFTNKSNPVLFINITGNVNAGLINTMVEVLRDTSTLIKPKTSAPGIVYKNINIWVGTTGFAVPENIKEAVIRFRVENTWLSDNNVTSTEVKLVKWDGSKWITLETSEKMKDSTNTYLEGKTDSFSSFAITGMKETVQMAIPTATITSPEPTLTVTTGMPEAKPSMNWALIIGVLSLIAIMAVLYMLYLKRK*