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ar4r2_scaffold_49_1

Organism: ALUMROCK_MS4_Bacteriodetes_30_51_curated

near complete RP 53 / 55 BSCG 51 / 51 ASCG 15 / 38 MC: 1
Location: 2..5995

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
WD40-like beta Propeller containing protein id=3854441 bin=GWF2_Bacteroidetes_38_335 species=Fluviicola taffensis genus=Fluviicola taxon_order=Flavobacteriales taxon_class=Flavobacteriia phylum=Bacteroidetes tax=GWF2_Bacteroidetes_38_335 organism_group=Bacteroidetes organism_desc=a11 similarity UNIREF
DB: UNIREF100
  • Identity: 24.5
  • Coverage: 2052.0
  • Bit_score: 473
  • Evalue 7.80e-130
  • rbh
hypothetical protein similarity KEGG
DB: KEGG
  • Identity: 24.6
  • Coverage: 1569.0
  • Bit_score: 270
  • Evalue 2.80e-69
Tax=GWA2_Bacteroidetes_30_7_curated similarity UNIPROT
DB: UniProtKB
  • Identity: 29.0
  • Coverage: 1497.0
  • Bit_score: 585
  • Evalue 1.50e-163

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Taxonomy

GWA2_Bacteroidetes_30_7_curated → Bacteroidia → Bacteroidetes → Bacteria

Sequences

DNA sequence
Length: 5994
GATGGAACTTGGGGAAAGCCTGTTCTCTTGCCATTTGAGATAAACACTAAATACGACGACGATTATCCCTACATTCATCCTGATGGTAAAACTCTATATTTTAGCTCAAAAGGACACAATACAATGGGTGGTTTCGATATTTTTAAATCGGTTTTCGACTCAACAACAAATAAATGGAGCGAGGCTGTAAATATGGATTTCCCTACAAATACACCGTACGACGATTATTTGTACATATCTGATAAAAAGGAAGATTACGCATATTTTGCATCGAACCGAGAAACAAATGGCGAAAATATTTCTGTTTATAAAATTTTGATTGATAAAAATCCCATAAGAAAAGAAAATACCGATATCGAACTCATAAAAAGTAAATCAAAATTAAATATTTCAACACAAGAAGAAATTGATAAAACAAAAGAAAGAAATGGGGATAACGAAGAAAATTTAGCCATAAACAAAAATAATATTATAAAAGAAGATGATTATATTTACGTTTTCGAAAAATTGAAACTTTCAGACTCAGTTACAAAAGAAACACTTATTGAAGAAACCCAAAAAGATATAAAAAAAGTAGAAAAAGAAGCAGATGCAACCCAAAATAAAGGAAATAAAGCATTAATTAATGCTTATAAAAAAAATTTAGAAGCTGATAATGCATTGAAAATTGCTGACGAAATATTAGCAAATCCAAATGTTAGCGATGCAGACAAACAAAAAGCAAATGAACTCACAAAAAATGCTGAATATCTTGAACAAGAAGCAATTACCTCGTATAACCTTGCAAATTTATTAATAGCTGAAGCTACCCAAAAAAATATTGATGTTGATAAAACAAAAGCAATTTCTGAAAACGTTGCCAATACTAGTGATTTTATCAATTCAATCGACTTAATTAATACTAATAGAGAAAATTTAGAAAATGGGAAAAGTAAATATTTTAACTTAGACAAAGAATTAGTTGATAAAAAACTTAATTATGAAGAGAGCAAAAATGAACTAAATTTGGCAAATTCTAGCATATCTAAAATAAAATTAGAAGTAGAAAATAATATTGCAATTATCGAAAAAATTAAACAAAGCAACGACCCAAATAGCTCTAAAAATATTGCCGAAATTGAGGAGAAAAACATTAATCTTAACGAAGAATACAAAAACACATTGTTTGAAAAAGAAGAAATGGAAGCCGAGCTTTTAGAAAAAGAAATTCAACTTAAAACTCTAACAGAACTTAAAACTCAGTTTTCACAAAACGACTTAGCCGATATAAAATCTATTACCGAAATAAAACCTACAGAATTAGAAAAAACAATAAATGAAAAAAGTTTTAAATTAGAAACTTCTCAAAAAACTGAATTGGTTGAAAAACAAAACGAAGCACAAAATGAAAATTTAATCAATCCTGATATAAAACAAAACGATATTGAAGTTGCTGAAAAAATCGAAATAAAAACTGAAAACAATACAGTTGAAACTACAAATATAGATTCAGTAAACATTACAACTGAAAATGAAAAAATTGCTGAAATTGAAAAAACTGACTCAATAACTAATAGTAATAATTTTACCGAAAAAATAAATAACACTGAAAAAACCAATAATGAAATTGTTGAAATTGAAAAATCAAATGAAAATATAGTTGAAAAAACTGATATAAATAATGAAACCAATGTAAATGAAAAACTAGATTCAAATTCGGTTAACGAGCTTGATACTAATAAAACCATTGCCGAAAACACCGAAAAAAATAATATTCAGGCGAATACAAACGAGAAAGATACAATAATAATAAAAAATAATTCAAATAATATTAAAACATTAAATGGCGAAGAGAAAAAAATTACTAATAACGAAGTTGAAACTCTTAGATACAAATCGGTTGCAAACAAACAAACTGCTGATTCTATAAAAATAATAATTTTGGAAAAAGAAACTTTAAAATCGAAAACTACAAATAATACAGAAATAGATAAAATAAATAAAGAAATAGAAAACCTAAAATTTGTAGCAAATCTAAAACAGCAACAAGCAAACAGACAACAAAATGAAGCTAATGCAATAGAAAACACATATTTAGCAAACAATATAAGTGTAAACGAAACAAAAACAAATAATAACGAAATCATTATAACCAAAGGAAATAATATAAAAGAACTCAAAAAAGAACAAAAATTGTGCATCGAAACTTCTGATTCGCTATCGAACCTAGCTAATGAAAATAAAAAACTAGCTGAGACAGAAACTAACAACGAGAAAAAACAATTACTGCTTGACGAAGCTGTTGATTTAGAGAAACTTGCAACAATTAAAAAGAACGAAGCTTCATCAATAAACCAAAAAATAACTGAACAAGAATCGGAAATTATTACACTTGCCGAAAACAATGCAACAAACGAAAAAATAGATAATGAATTCCCTTTTGAAAATACGCCAAGCAATAGCGATAAAGAAAACTACAAACGCGAACTTCTTAAAAAACAATACTTTGCAGATAAAAACAAAGAATTAAACACAAAAATTGAAGCCTTAAATAAATCGATAGAAAATGTAAGTTCAATTGAAGCTAAAAACGATATTGAAAAAAACATTGAAGAAACTAATAAGCAAATAACTCAAAACACGGTTAAATTGGCTATATCTGAAGCAAAATCTAATAAACTCAGAGAGAAATTACAAAATAATGAGATTGTAAATTTAACGGAAAACCAAATATATGCTGATGCTACCCAATATAATCTGAAAAACACAGAATTAGAAACAGAAAATAAAACAGAGTTTAGTAAAATTAAAAACTCCAAAAATGAAGCTAAAAAATTAAAAAACGAATTTGAAAATTTAAAACAAGAAATTAAAAATATTGAATTGAATATTTCAGAACAAAAAAGCCCTGAAGAACAAACTAATTTAAAAAAACAATTAAACAATTTAAATAACGAATCAACAAAAACTTTTATAGAATACAATAAAAAGCAACAAAAATCGAATTTTGAGGAAAGGCTACTCTATCAAAATTTAATCGAAAAAATTAATCAAAATATCTCAACTAAAGAAAATGAACAAGCAAATAGCCTTGTAAACCAATCTAATCTATATTTTGAAGAAGCTCAATCTATAAGAAACCCTAAAGAAAACGGTAAACAATTGTCGGAAAAAGAACTTATCAACGCCCTTAATTTAGAAACAATAGCATTAAATAAACAAAAACAAGCTTTAGATATTTACTCTATCAATACACAGGAAGTAGCTAATAATAAACAACAAACAACAAACAACGAAATTGTTTTAAATTCAACAGAAAAAAACGATTTAAGCAATCACTCTAAAATTTCTTACAAAGCTGAAAAACAGTTAGAATCTTTAAATACTGAGCTAGAAAAAAATAATTTAGAAAAAAACATAGCTAATAAACTTTACTCAAAAGATAAAGAAAAACAATTATCAATTTTAAATAAAAAAGAATTAGAATTAACAAATAAAATTTATGAAAATTATAAGAATTTATCGCTTGCCGACAGTTTAAAATACAATGTATATAATAATCAAATAAACCAAATTAATGAAATAGATACAATTCAATCAAAAACAAAAAAAATTGCAAACGAATATACCAAAGGAGCCGAATATTTTTATAGCCAATCGAAAAGTTATAGAAACATTGCAAATAAAGAACCCAACCCCGAAATTAAGAAAAAGAATCTCGAAAAAGCATATAACCTAGAAAAAATGGCTTTAGCCAATCAAGAAATTGCAATAAACACCCTTCTAAACAAAAACACCGACAACTTTGTATCTAACGGAACACTTATAAAAGTTGATCCTCTTGAAAATTATGACAAAAAAATTGATACAAAAAAGGTACAGGACGCAACTTACAGTAAAATAATTGCAGGAATAAAACTAAACGAAGATGAACTAAAACAACTCGACGAAACCATTTCCTCTGAAATTGAAATAAAAGATTTAGAGAACGACAAAATCCAGCTCGAAAAAAATATTAAAAAATTAAATTCCAATATTGAAGCGGAAACAGACCCTAAGAAAAAAGAAAAATTTCATAAAACATTATTAAAAACAGAAGAAGAAAAAAACTCAACCATATTTGCCATTTCTGATTTAAATGAAAAAAATAACGACACAAAATTTTATGTACTTTTTGATAATTTAAATACTAACCGTAAAAATATAGATAAAACAAAAGAAACAGAAGCAAAACAATTAGAAAAAAATGCAATTTCGAATTACAAAAAAGCAAAAACATTACGCGAAAAAACATTTGTTGTTGATGATACTAAAACTGCATTAGAATACTTAAACGAAGCTAAAAACCTTGAAAAACAAGCAATAAGCGAAATTACAAATGCTTATGGGCTTTACTTAAATATTGACCAAAAAGAAATAGAAAAAGAACAAATTGCCGAAATAGAAAATGCAGAAAATAATAACTTAAATATAATTGAGAAAAAAACTGCCGATATTACAGTTGTTGAAAACGCCGAAATACCAGAAAATACTGATACTACAATAACAAAGCAAGACTCAATACAAAATATAACTGAAAACAATTTAATTATCGACACACTTTCAAACATAAAAATAGCTTCTGTTAATGAAGCAAAAAGCGATTCAATTAAAAATATAACTACTGAAATTGCTGAAAATAAAACAAATGAAAACAAAAATATTGAAATTGAAAACAACGAAAAAAATAACCAAATCAACGAAAACAAAACAGAAAATAATATAACAAATACGAACCAAGAACAAATTATTAAAACAAATTTAGAAACCGAAAAAATAAAACCTACAACAAATGAATATAATAGTAGTAAATCTTATGCAATTTATCCTGCATCAATTTATACAAAACAAAACCCAATTCCTTTAAATCCAGATTTACCATCAGGAATAATTTTTAAAGTTCAAATTGGAGCATTCAAAAATGCAATAAATCAAAATACATTTAAAGGGCTAAGTCCAATTGCAGCTGAACGTATTGAAGGAAGTGCTTTTACAAAATACCTAGCCGGAATGTTTCAAACTTTTGAAGGTGCTAGCTCTGCACTCAATGAAATTAGAAATTTAGGTTACAAAGATGCTTTTATTGTTGCTTACCGCAATGGCAAACGAATACCTGTATATTTAGCTAGAACAGAAGCTCAAGAAAAAACAACAAACTACAACGAACTTGCAAGCAATGAAGCTCAAATAGTTAAAAATAGAAATAAAAATGCAATTGAAATAACTAATAACGAAAATCAAAACAATAATTTATTAGGCAATAATCTCAATAATAACACTTTAAATGTTAACAATGCCGAAAACAATATCAACGAGCCTAATGTTGTGGCAACTGATATTAAAAAAACCGAAAAATTACTTTACACTGTACAAATTGGAGTTTATAAAACTGCTGTTCCACACTCAAAATTATATAACTTAAACCCTATTTACGAAGAACAAACTCCTTATCAATTTATTAGATATACAACCGGAATTTTCTCAGATATAGAAACTGCTAATGCCGAAAAAGACAGAATACGTAATTTAGGTATCAAAGATGCTTTTGTAACTGCATACCATAAAGGACGAAAAATTTCATTAAACGAAGCCGAAGAACTTAAAAATCAGAATGTTGAAACCGAACAAAACATTAAAGTTGAATTACCCCAAGTAAAAGTTACCCAAAATTCAATTGATGAAACCATAGACACTCTTAACCTTTTTTACAAAGTACAAATAGGTGCTTATAAAGAACAAGTTCCAATAAACGATGTAACTTCGTGGCTAAGCATTGCTCGAAAACAAGAGTTATCGCAATTTAAAGACGAAAACAACATAACTATATTCGCAGTAGGAAACTATAAAACTTATGTTGATGCTGCTCGAATGAAAGAAATACTTATTAACGAAGGCTTAAAAGACGCATTTATAGTAGCTTATAGCAAAAACAAAAAAGTAAATGTAGCAAAAGCTAAAGAAATATTAGGACAATAA
PROTEIN sequence
Length: 1998
DGTWGKPVLLPFEINTKYDDDYPYIHPDGKTLYFSSKGHNTMGGFDIFKSVFDSTTNKWSEAVNMDFPTNTPYDDYLYISDKKEDYAYFASNRETNGENISVYKILIDKNPIRKENTDIELIKSKSKLNISTQEEIDKTKERNGDNEENLAINKNNIIKEDDYIYVFEKLKLSDSVTKETLIEETQKDIKKVEKEADATQNKGNKALINAYKKNLEADNALKIADEILANPNVSDADKQKANELTKNAEYLEQEAITSYNLANLLIAEATQKNIDVDKTKAISENVANTSDFINSIDLINTNRENLENGKSKYFNLDKELVDKKLNYEESKNELNLANSSISKIKLEVENNIAIIEKIKQSNDPNSSKNIAEIEEKNINLNEEYKNTLFEKEEMEAELLEKEIQLKTLTELKTQFSQNDLADIKSITEIKPTELEKTINEKSFKLETSQKTELVEKQNEAQNENLINPDIKQNDIEVAEKIEIKTENNTVETTNIDSVNITTENEKIAEIEKTDSITNSNNFTEKINNTEKTNNEIVEIEKSNENIVEKTDINNETNVNEKLDSNSVNELDTNKTIAENTEKNNIQANTNEKDTIIIKNNSNNIKTLNGEEKKITNNEVETLRYKSVANKQTADSIKIIILEKETLKSKTTNNTEIDKINKEIENLKFVANLKQQQANRQQNEANAIENTYLANNISVNETKTNNNEIIITKGNNIKELKKEQKLCIETSDSLSNLANENKKLAETETNNEKKQLLLDEAVDLEKLATIKKNEASSINQKITEQESEIITLAENNATNEKIDNEFPFENTPSNSDKENYKRELLKKQYFADKNKELNTKIEALNKSIENVSSIEAKNDIEKNIEETNKQITQNTVKLAISEAKSNKLREKLQNNEIVNLTENQIYADATQYNLKNTELETENKTEFSKIKNSKNEAKKLKNEFENLKQEIKNIELNISEQKSPEEQTNLKKQLNNLNNESTKTFIEYNKKQQKSNFEERLLYQNLIEKINQNISTKENEQANSLVNQSNLYFEEAQSIRNPKENGKQLSEKELINALNLETIALNKQKQALDIYSINTQEVANNKQQTTNNEIVLNSTEKNDLSNHSKISYKAEKQLESLNTELEKNNLEKNIANKLYSKDKEKQLSILNKKELELTNKIYENYKNLSLADSLKYNVYNNQINQINEIDTIQSKTKKIANEYTKGAEYFYSQSKSYRNIANKEPNPEIKKKNLEKAYNLEKMALANQEIAINTLLNKNTDNFVSNGTLIKVDPLENYDKKIDTKKVQDATYSKIIAGIKLNEDELKQLDETISSEIEIKDLENDKIQLEKNIKKLNSNIEAETDPKKKEKFHKTLLKTEEEKNSTIFAISDLNEKNNDTKFYVLFDNLNTNRKNIDKTKETEAKQLEKNAISNYKKAKTLREKTFVVDDTKTALEYLNEAKNLEKQAISEITNAYGLYLNIDQKEIEKEQIAEIENAENNNLNIIEKKTADITVVENAEIPENTDTTITKQDSIQNITENNLIIDTLSNIKIASVNEAKSDSIKNITTEIAENKTNENKNIEIENNEKNNQINENKTENNITNTNQEQIIKTNLETEKIKPTTNEYNSSKSYAIYPASIYTKQNPIPLNPDLPSGIIFKVQIGAFKNAINQNTFKGLSPIAAERIEGSAFTKYLAGMFQTFEGASSALNEIRNLGYKDAFIVAYRNGKRIPVYLARTEAQEKTTNYNELASNEAQIVKNRNKNAIEITNNENQNNNLLGNNLNNNTLNVNNAENNINEPNVVATDIKKTEKLLYTVQIGVYKTAVPHSKLYNLNPIYEEQTPYQFIRYTTGIFSDIETANAEKDRIRNLGIKDAFVTAYHKGRKISLNEAEELKNQNVETEQNIKVELPQVKVTQNSIDETIDTLNLFYKVQIGAYKEQVPINDVTSWLSIARKQELSQFKDENNITIFAVGNYKTYVDAARMKEILINEGLKDAFIVAYSKNKKVNVAKAKEILGQ*