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PLM2_5_b1_sep16_scaffold_14693_2

Organism: PLM2_5_b1_sep16_Acidobacteria_Holophagae_53_17

near complete RP 47 / 55 MC: 3 BSCG 45 / 51 MC: 1 ASCG 12 / 38 MC: 1
Location: 2361..8216

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Uncharacterized protein Tax=Fluviicola taffensis (strain DSM 16823 / RW262 / RW262) RepID=F2IGK2_FLUTR similarity UNIREF
DB: UNIREF100
  • Identity: 28.7
  • Coverage: 2005.0
  • Bit_score: 534
  • Evalue 3.60e-148
Uncharacterized protein {ECO:0000313|EMBL:KFD38680.1}; species="Bacteria; Bacteroidetes; Flavobacteriia; Flavobacteriales; Schleiferiaceae; Schleiferia.;" source="Schleiferia thermophila str. Yellowstone.;" similarity UNIPROT
DB: UniProtKB
  • Identity: 34.0
  • Coverage: 1727.0
  • Bit_score: 704
  • Evalue 2.90e-199
hypothetical protein similarity KEGG
DB: KEGG
  • Identity: 28.7
  • Coverage: 2005.0
  • Bit_score: 534
  • Evalue 1.00e-148

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Taxonomy

Schleiferia thermophila → Schleiferia → Flavobacteriales → Flavobacteriia → Bacteroidetes → Bacteria

Sequences

DNA sequence
Length: 5856
GTGGTTACGACCGTTGGTACAACGGGTGCCACTTACGCAACGCTAAAGGCCGCGTTCGATGATATTAATGCAGGGGCGAATGGACTGACAGGCGCTGTCACGTTGAATGTGATTGACAATACGACAGAGACGGCCTCGGCTGTGCTCAATGCCAGCGGTACTGGCTCGGCTTCCTACACCTCGGTTCTTATCCAGCCATCTGGCGGACCATGGACGATTGCGGGATCGATAGCCGGACCACTTATCGACCTGAATGGAGCCGACAATGTAACGATCGACGGATCCAACACACTCATCATCGATAACACCCTCTCAGGAGCCACCTCTTCGACGATCCGTTTTATTGGAGACGCGATAACCAATACCGTCCAAAACACTACGATCAAGGGTGCGGGCACTGCGGCTACGGTGGGCACGGTATTTTTCTCGACGGGTACAACAACTGGGAACGACAGCAACATTATTACCGGAAACACTATCACCTCGTCGGGGGCGAACTTTGCAACTAATGCGATCTACTCGCTAGGAACAAGCGCTGCCATCGATAACAGCGGCATTACTATCTCGAATAACAACATTTCCGACTATTTTAATGCCGGTGCCGCTACTGTCGGAATTAATCTCGGAGCAACTGGAAACTCTTCATGGACGATCATGGGAAACAAGTTGTTCCAAACCGCCACGCGTTTGTATACAACGGCGAATACACATAGCGGAATCCTCGTGGGTACGGGCGCTGGCTACACGATCAACAACAACATTATTGGTTTTGCGAATTCGGCCGGCACCGGAACGACCAATATAGTCGGCAACTCGGTAGCTCTTACCGGTACATTTCCGAGTTCGTATACAACAACGGGCACGGCGAATGCCACCCGATATATTGCTATAAATGCTGCTTTCACGGCTGGCGGGGCTGTCTCGAACATTCAAGGAAATACTGTCGCAGGCATCGCACTCTTTACATCCAGTGGTGCCACTACTACCAACGGCATTCTTTGTGGAATAAACCTCACATCGGGTAATGCCAACATCGGCACTACTGCAGGGAACACTATCGGAGCCACGTCTGGTCAAGGCTCACTTTACGCCGCGATGACCACTGGTGGCGGCGCGGTCGTGGGAGTCTTTGCAACTTCCACCAACACCGTCACGATACAAAATAACACAATAGGTTCGATCGATTCTGTAGGGGCTACCAACACTCTAAGCGGTGCGTTCACAGGCCTTGATACTGCAGGAACGGGCGGCGTTTTCACCATCAACGCCAACGTTATCGGTAGTACGACCGTTGACAGTATTCGAACAGGCTACACACTTTCGGGAGGGAATCTCTCAAATGCCGGAACGCTAACTTCCACTACGGGTACAACCAGTCCATTAGTTGGAGTCCGCTGTTCTGCTTCGGGGGCGACGCTGAATATGAACGGCAACACGCTTCGGGGGTGGGTCAACGGAACTACCGCGGGCGGTGCAACGACCGGCCTTACGTCAACGGGTGCGAATTCATCTGCTGTAACCATTAACGGTAATTCTTTGGGTACCTCTGCACTTGGATGGATGCGATGGGCCTTCGCGAATACCGGTGGAACTGTAGCCGGTATAAGCATGAGTGGTTCGACGGCCGCGACGATCCATTCGATCCAGGCCAATGATTTTCAGGGTCTGGTTTACACGGTTTCAGGTTCCAGTTCGCACACTTACATTTCTAACACAGCGGGAACAGGAACAGGCGACGTATCTACAATTGCCACCAATACGTTTACAAATCTCAACGTCAATACAACCGGCAGTGTGACGTTTATTTCACAGACCTACTCAGCATCTGCTACCGGCACTAAGAATACAACCAATAACTCGATCGTAACGGCTTTTAATAAACCCGGGGCCGGGGGAACGGTCACGTTCATAATTGATAACGGTTCATCGGTGACCGGAGCGATTTCAAACTGTCAGAACAATAACTTCTCTAATGGTACTTTGACCGGTGCTACGGGCATTACTGGAATCAGCTATACCGATGGTGGCACTGCACCGACCCGAAACGTCGTGGGCAATACGATCAATAATTGGACCTCGGGCGCAGCCACGTTGAACATGATGAATTTCACGTATTGGAATTCAGCGTCAACTCTTTCAAACAACACAGTTACTAACATTGCCGGTCAGGGTGCGATCACCGGCCTTACATTGGGCTCAACGGTAAATACTGCAAACCCCGCAAACATTACAGCGAACACGTTCAGCAATTTTTCATCAACGGGTACAGGCGGCGCAGTGACTGGTATTACGACCGCAAACACCTCGCCTGTAATAAACATAACCGGAAATGCGATCAACACACTTTCGTCCACTGGGGCTGCTGCGGTGACCGGGATCGCGGTTACCGGTGCGATAAACACCAGCGTTGTCAAGAACAAGATCTATGACCTAAGCGGAACAAACGCTGCGTCGACCGTCAATGGTATTCTGGTCAGTTCTGCAAACTCTGTGAGCACCGTTACTCTCGCAAATAACCTTATAGGCAATTTGACAGCCGGCTTAGCCACGGGAGCGAATGCGATAAACGGGATCAATCTCACGGCGACTGGTGCGACACAGAATCTAAATGTCTTTTACAATACCGTTTATATAAATAACTCTGTTTCCGGAGCGGGATTTGGCTCATCGGGGATCTTTCACACAACGAGCACTACTTCGACAACGGCAGCTCTAAACTTACGGAATAACATTATTGTAAATACGTCGGTCCAAAATGGTGCTGGCCTGACAGTTGCGTATCGACGAAGCTCAGGTGCGGCCGGCGCCCTCGCTAACTATGCGAGCACGTCAAACAACAACGATTTCTACGCAGGTACGCCAAGCGCGACGAATCTTATTTATGCCGACGGGACGAGTTCAGCGCAGACCATAGCGGCGTACAAGGCCGGCGTTTTTACGGCAGGAACGATAGCTCCGCGTGACTCGGCTTCGATATCCGAAAGCCCCGTCTTTCTGAGTACCTCCGGCTCCAACGTTAATTTCCTTCATATTAATCCTGCAACCGCTACACAAATAGAGAGCGGGGCCGTCAATATCGCAGGCATCACCGACGATTTCGACGGACAGGTGAGACAAGGTAATCCGGGTTATGCCGGAGGCGGAACGGCGCCAGATATCGGCGCCGATGAATTCAACGGTATCGCACTCGACCTTACGGGACCGACGATCAGCTACGCGGTGCTCGGGAACGACATAGTCGCGGGATCCAGGGCGTTCAGCAATGTCACGGTCACCGACCCAAGCGGCGTTAACGGCACAGCCGGAACGCGACCCCGCGTTTATTACAAGAAATCGACGAATGCAAACACCTTTATTGACAATACGAGTGCGACGGACGGATGGAAGTTTGCCGAGGCCAATGGCGCCACCTCGCCGTTCGATTTCACGATAGACTACACGCGACTTTTCGGCGGTTCAGTTTCGACCGGTGATAACATTCAGTACTTTGTCGTCGCCCAGGATCTTGCAGCGACACCGAACGTCGGCATAAATTCGGGAACGTTTGCCGCAACGCCGTCGAGCGTCAATCTCACAGCTGCGGCATTCCCGATCGGCGGCACTATCAACAGCTATAACATTGCTCCACAGATCAACGGCACGCTTGTTGTCGACGGAACGACATATACGTCGCTCACGAATAACGACGCCGGGGGAATTTTCAACAAGATCAACAACAGCGTCCTCAACGGCAACCTGGTCATCGAGATCGCCGCCAACCTGACAGCCGAGACCGGGGCCGTCGCCCTCAATACGATCGGTGAGAATCCGGCGGGCAGCAACTTTACTATAACCATCAGGCCGACCGGCATAGCGCGGACGATATCAGGCGCGTCCACAGGTTCGCTCATCAAATTAAACGGAGCGAGCCGTGTCACAATTGACGGCTCGCTCGTTGTTGGCGGCAACAACCGCGACCTCACGCTCGAGAACACAAGCGCCTCGGCGAACGGTGTAGTTTGGTTCGGGTCAGTGGGCACAACCCCGATCGTCAATGACCAACTCAAGAACTGCACTGTCCGCAATGGTGTGAACACAACGAGCGCGATCGTAATCAGCGATGCTGCTACTCTCGGCGCCGGCGGCTATAACAACAATATCGCGTTCGTAAACAACGACGTTCAGAAGGCGTTCCGAGGCATCTTCGTCGCAACTAGCCCGACCGGGACGAACGGCAGCGGCCTGGTGATATCGTTTAACAGTTTCAATACCCCAGGCGCAAATTCGATTCGCCTGAACCCCATCGCCGTCTCAGGATCGAACGGTGTAACCATCGCGAGTAATGCTATGGGAAGCATATCCGACGCAAACGCCGAGGTCCCGGTCGGCATCATTCTCGGTACCAGCACCGACAATGCACAGGTCGTTGGAAATACTCTCCAGAATATCGTTTCGACCAGTACGGGAGCTGCTTCCGCTTCGGGAATTCTCGTCGCCGCGGGCGTGCTGACGACAAACATTAGCGTTACAAACAATACGATCACAACTTTGACCAGCGCCGGAACCACCGTCTCGCATTTTGGAATTGGGACGTTCTCGCCGAATACGAGCATTACCAACAACAACATTAGCGGAATGACACAGACTGGAGCGACGACTTCCTTCGGTATAGTTGTGGCCGGTGCAGCCAATTGTACGATCTCGGGCAACTCGGTCTCCGCGATGTCTTCCTCCGTGGCGACCGCATCGCAGTTGGGCATCAACATTCAGGGTGTTAGCCCTGGTGCGATCGTCCGAAGCAATACAGTTTCGAACATAACGACGGCGACCGGAACTTCAACGGTGCCGATGGGAATCTTGCTCAGCGGCACCGGTGACGGCGTAACGGTTGAGCGAAATAACGTCAACGGCATCATCAACAACAATGCAGGCACGTGGGGAGCATGGGGCATCCGGCTCAATGGCGGAAATAACCATGTTGTCAAAAATAACTTCGTCAGCAATATTTCACAGAATATGACAGGCGGGGCGGCCTTCTCGCCGTCGTTTGGCGTATTTGGCATACAGATCGACGTTGGCACGGGTCACAAGATATACAACAACTCGGTCAATCTGTATGGACCGTTGTCCGGAACAGCGGCGTCGTCTCTCCTGACAGGAGCGTTGAGTATTGCCTCGACAGCATCGACCGGAATGGATATTCGCAACAATATACTGGCGAACAACATCACCGGCGGTACGACTGGGATCGCTCATGTGGCCATTGCATTGCCGTCTGGCGGCACCTCGGCGATGAATTTGACGGATAACAAGAACTCTTACTATTTCGGGTCGAACGCCGCCACTGCCGGAGCAGGTGAGTCGGGAACAACGGCAGGCTCGCCGAATCTGGGCACGTTAACGCTTTTGGCAGCGTACACGAGCACGCTGCATGCAGCGGCAACGAATGACAACGCTTCCATTGCGTCAACTGGAACAGTGCCATTTGCTACGGCAAACGACCTGCACATCACAGCGGCAGTTCCGGAATATGACACCGGTGTCACTATTGCCAACGTAACGAACGATTTCGAAAATGATTTGCGTCCGCAGGGTGCGGCGTATGACATAGGGGCGGACGAGGTATTTGTTGCAACGCCTACCGCTACTAGTACTGCGACCTTCACGCCGACTGCAACTGCAACGGCAACGGCAACAGCCACGGCAACGCCGACGGGCACGCCTTGTCCGACGGTGTTGTATGGTATCTCGAATGGATTTGGCACAGCCGCGGACAATCAGGTATATCAGATCGATCCGGCTACAGGCGCCATTTCGAACCCGGTAACCGTCACGCTTGCTGGTTTTACAATTAACAGGTCGCAAGCCATGGCGGCT
PROTEIN sequence
Length: 1952
VVTTVGTTGATYATLKAAFDDINAGANGLTGAVTLNVIDNTTETASAVLNASGTGSASYTSVLIQPSGGPWTIAGSIAGPLIDLNGADNVTIDGSNTLIIDNTLSGATSSTIRFIGDAITNTVQNTTIKGAGTAATVGTVFFSTGTTTGNDSNIITGNTITSSGANFATNAIYSLGTSAAIDNSGITISNNNISDYFNAGAATVGINLGATGNSSWTIMGNKLFQTATRLYTTANTHSGILVGTGAGYTINNNIIGFANSAGTGTTNIVGNSVALTGTFPSSYTTTGTANATRYIAINAAFTAGGAVSNIQGNTVAGIALFTSSGATTTNGILCGINLTSGNANIGTTAGNTIGATSGQGSLYAAMTTGGGAVVGVFATSTNTVTIQNNTIGSIDSVGATNTLSGAFTGLDTAGTGGVFTINANVIGSTTVDSIRTGYTLSGGNLSNAGTLTSTTGTTSPLVGVRCSASGATLNMNGNTLRGWVNGTTAGGATTGLTSTGANSSAVTINGNSLGTSALGWMRWAFANTGGTVAGISMSGSTAATIHSIQANDFQGLVYTVSGSSSHTYISNTAGTGTGDVSTIATNTFTNLNVNTTGSVTFISQTYSASATGTKNTTNNSIVTAFNKPGAGGTVTFIIDNGSSVTGAISNCQNNNFSNGTLTGATGITGISYTDGGTAPTRNVVGNTINNWTSGAATLNMMNFTYWNSASTLSNNTVTNIAGQGAITGLTLGSTVNTANPANITANTFSNFSSTGTGGAVTGITTANTSPVINITGNAINTLSSTGAAAVTGIAVTGAINTSVVKNKIYDLSGTNAASTVNGILVSSANSVSTVTLANNLIGNLTAGLATGANAINGINLTATGATQNLNVFYNTVYINNSVSGAGFGSSGIFHTTSTTSTTAALNLRNNIIVNTSVQNGAGLTVAYRRSSGAAGALANYASTSNNNDFYAGTPSATNLIYADGTSSAQTIAAYKAGVFTAGTIAPRDSASISESPVFLSTSGSNVNFLHINPATATQIESGAVNIAGITDDFDGQVRQGNPGYAGGGTAPDIGADEFNGIALDLTGPTISYAVLGNDIVAGSRAFSNVTVTDPSGVNGTAGTRPRVYYKKSTNANTFIDNTSATDGWKFAEANGATSPFDFTIDYTRLFGGSVSTGDNIQYFVVAQDLAATPNVGINSGTFAATPSSVNLTAAAFPIGGTINSYNIAPQINGTLVVDGTTYTSLTNNDAGGIFNKINNSVLNGNLVIEIAANLTAETGAVALNTIGENPAGSNFTITIRPTGIARTISGASTGSLIKLNGASRVTIDGSLVVGGNNRDLTLENTSASANGVVWFGSVGTTPIVNDQLKNCTVRNGVNTTSAIVISDAATLGAGGYNNNIAFVNNDVQKAFRGIFVATSPTGTNGSGLVISFNSFNTPGANSIRLNPIAVSGSNGVTIASNAMGSISDANAEVPVGIILGTSTDNAQVVGNTLQNIVSTSTGAASASGILVAAGVLTTNISVTNNTITTLTSAGTTVSHFGIGTFSPNTSITNNNISGMTQTGATTSFGIVVAGAANCTISGNSVSAMSSSVATASQLGINIQGVSPGAIVRSNTVSNITTATGTSTVPMGILLSGTGDGVTVERNNVNGIINNNAGTWGAWGIRLNGGNNHVVKNNFVSNISQNMTGGAAFSPSFGVFGIQIDVGTGHKIYNNSVNLYGPLSGTAASSLLTGALSIASTASTGMDIRNNILANNITGGTTGIAHVAIALPSGGTSAMNLTDNKNSYYFGSNAATAGAGESGTTAGSPNLGTLTLLAAYTSTLHAAATNDNASIASTGTVPFATANDLHITAAVPEYDTGVTIANVTNDFENDLRPQGAAYDIGADEVFVATPTATSTATFTPTATATATATATATPTGTPCPTVLYGISNGFGTAADNQVYQIDPATGAISNPVTVTLAGFTINRSQAMAA