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gwc1_scaffold_3663_15

Organism: GWC1_OP11_44_23

near complete RP 41 / 55 BSCG 46 / 51 MC: 1 ASCG 13 / 38 MC: 1
Location: comp(13813..19887)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Uncharacterized protein (Fragment) n=1 Tax=uncultured bacterium RepID=K2F503_9BACT alias=RAAC19_AAC14_scaffold_1619_18,RAAC19_C00018G00018 id=699709 tax=RAAC19 species=uncultured bacterium genus=unknown taxon_order=unknown taxon_class=unknown phylum=unknown similarity UNIREF
DB: UNIREF90
  • Identity: 50.8
  • Coverage: null
  • Bit_score: 668
  • Evalue 5.30e-189
Uncharacterized protein {ECO:0000313|EMBL:KKT54114.1}; Flags: Fragment;; TaxID=1618523 species="Bacteria; Microgenomates.;" source="Microgenomates bacterium GW2011_GWC1_44_23.;" UNIPROT
DB: UniProtKB
  • Identity: 100.0
  • Coverage: 999.99
  • Bit_score: 3964
  • Evalue 0.0
hypothetical protein KEGG
DB: KEGG
  • Identity: 24.5
  • Coverage: 546.0
  • Bit_score: 86
  • Evalue 1.30e-13

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Taxonomy

GWC1_OP11_44_23 → Microgenomates → Bacteria

Sequences

DNA sequence
Length: 6075
TGTAACGGCACCATCACCGGAACATTCGCCGGCACCCTGCCTTGGTCATCCATTATTGCCCCCACCGCCAATCTCTCCCTGGCTCATGCCGGCTATACCACTGCCTTTACTTTTGATTCACTCACTAGCGCCTCTGCTTTTGCACTCTCCTCTACCTCCACCGCCGGAGGAGCTAGTGGAGTTTCTAAACTTTTAGATATTAGTAGATCAGGCACCAATGCCAATGCTTCCCATACCGCCTATGGACTCTACTCTGCCGTGACCAACACCGGGACAACTTCCACCAACGTCGGCGGCTACTTCTCCGCCTCCGGGGCTACCAACAACTATGGTTTGATAGTGGAAAATGGATCGGTCGGCATCGGAACAACCGCTCCTGGGGCAAATCTGGAAGTTGCCGGCCAGTGTATCACCGGCGACTCACTCCTTTCTTTAGCTGACGGCTCCACTCAAAGAATCGACCAAGTCAAAGGTGGTGAATATGTTTTATCTTTTAACGAAACTACCGGCCAGCTGGAACCCCAGCCAATCAAAGGCTTACTAAACATGGGGGTCAAACCTGTATACAAACTCACCACCAAAGACGGAAAAACTATCAGAACCACAGGTAATCATCCTTACTTGGTAAAAACTTCACTTCCTTCCCAAACGGAACAAGATCAGATAGCCGATGATAGAAATAACAACCAAAGCGATAATAACCAAATAAATGTTAGCCTGCACAACAGCTCACCTTCCTTTCTTGTAAATATAATAGAAAACAATCCAGACCAAACAACTGACGATAGCGGCCAACAAATAAGTGTTGGTAACATTCCATTCAATCATCATCTTACCTCCTTAGCTAATTTTAATGAAATAATAAAGAACACTCCAGATATTACGAGTGAAACAACAAAAGTAACCGTAAAATCAATAATCGATTTAGGGCGAGCCAAAAGTGGGGAAATTGCTCCAGCTGAAAACCAAGCAACCGCAATATTTCCTGCAATTTCCGAAGATCTTCCTAACTGGCCTGTCGATAATCTTCCCATTCCTCCCAATAATATCACAAATCAATCAAATAATGTCAAATCGCCTGCCAACAAAAGTTTTAGCCTGGGTTGGACAAAGGTTGTCGATCTTTCCCCCGGCGACGAAATTGCCGTTATGGAAACAACCTCTGATCTTAAAGAGGTAGTCTTTGTCAAAATTGCCTCCATCACATACGTCGGCGAGGAACAAGTTTGGGATATTGAGGTGAAAAACACCCACAACTTCGTCGCCAACGGCATCGTCGCCCACAACACCTATATCAACAGTACCGCTACTACTGCCAGTATCAAGGGACTGGAAATCGCCCAATCTGGAGCCATTACTGGAACCGGCTATGGTCTTTATGCCACCAAGACCGGCGCTTCAACCACCAACGTCGGCGGCTACTTCTCAGCTTCGGGTGGCACCAACAACTATGCCGCCATCTTTGATGCCGGCAACGTCGGCATCGGGACGACGGGGCCTGACGCCAAGCTGGATAGTTTGGCTACTACTGAACAACTAAGACTCACCTACACCGACGGCACAGTCTACTCCGCCCATACTGTTGACTCATCAGGTAATTTAACTATTGACAACACCGGCACCAAAACCATCATTGCCGACGATCTCCAAATTACCGGTGGAGATATCTTGGATAGTAACGGTAATGAATCAATCAGGTTTGGCACCACCGCCTCGGCCGTGAACGAGGCTACTTTAACCAATGCCGCTACCGCCGGCACAGTCTTACTTGCCGCCACCGGTGGAGATACTGACATTGCCCTTTCCATTGATAGTAAAGGAGCTGATGCTTTGAACTTAAACGGCACCGCCACCGGAGACGTCAACCTGGCTGGTGGCTATGGCGGTACCGGCTGTACCGTCACCAACAGCAATGGCAACCTCTCTTGTAACGGCACCATCACCGGAACATTCGCCGGCACCCTGCCTTGGTCCTCTATCATAGCCCCCACTGCCAATCTCTCCCTGGCCCATGCCGGCTATACCACCGCCTTTACTTTTGATTCAGTCACCACCGCCGATGCTTTTGCCCTTGCCTCTACTTCTTTAACCACCGGTACTCTGTTTGACCTCTCCTCTACTTCTACTGCAGGTGGAGCCAGTGGTGTTTCTAAACTTTTGGATATCAGCCGGTCAGGAACCAACTCCAATGCTTCCCATACCGCCTACGGTCTTTACTCAGCCGTCACCAACACCGGGACAACTTCAACCAACATCGGCGGTTATTTCTCTGCCAGTGGCGCCACCAACAACTATGGTCTCCTTGTTGAAAATGGGAATGTGGGCATCGGGACGACGGGACCAGGATCAAAACTACAAATTGATGGAGGCGCAAGCGGTAATGATATCCTTCGAATTATTAGGGAGTCTAATGCAAATAATTCATTTGCTTTTTCTGCTCCTGGTAATGACGCTTTACTTGTAATGAAAGAGCTTAATGCGGGTACAGCGTGGGCAATGGGAATTGACACATCTAATTCTGACAGCTTTACATTATCACAAAGCACCGCTTTTGGTACAAATGATTATTTTACCGTAGTTGGGCAAGGAGGTAACGCCGGCAACGTCGGCATCGGGACGACGGCGCCAAGTAACCCGTTGCACATAGCGGCACAAGCTCCCAGAATTCGTCTTGAAGATACTTTGGGTACTTCTAATTATAGTGTCATCTCAGCGGATAACGGACAAATAATTTTATCTGCTGATGAAGGCAGTCAACAAGGAAATTCTGCCTTTATAGTTAAAGTTGATAATAGTGAAAAGTTGCGAGTTGATAGTAGCGGCAACGTCGGTATCGGCACCCTTACCCCTGACAAAAAACTCTCTGTCTGGGGTGGAGATGGCAGTATCATGGATCCGACTGATCTTGGGACTGAGAGTCTGACCAATGGCAACTTGACTGCCGGCACTTCCTGGACTCAAACTACCGACTGTGCTTTGGCTACTGATGCCGCCACCTGTACCTTTGCGGCTGGCACTGCCTCAACCGTCCAGCAAGCCAGTGGAACCCTGGCTGTGGCCGGAGTTGGCTCACGTTGGTACAAGTTTGTCTACACCGTCTCCGGTTTGACCGGTACTCCTACTGCCAATATCACGACAGCTTTTGCTTCTGCGACCACTGCTTTGACTTTGACGGCCGGTACCCAGACTACTTATTTCAAATCAGCCACCACTCCCACTGACTTTGTCATCACCACTACTCTCACGGCAGGACAAGCTTTCACCCTTGATACTTTCTCGCTCAAAGAAGTCCAGGGTGGAGATTTTGCCCTTGGTGGTATCCTCACCGGTGGTGGGACTACAGGTTTGAAAGTCTTGGCCAATGGAAATGTGGGAGTGGGAACGGTAGCTCCTGATAGTAAATTCCATACGGTCGGAGGAGATGTGTATATTGCCCCCGATACCGGATATACTTTTGATAACGGCACGGCCAACGAAGATCTTTATGTCTATGGAAATGCGGAAGTTGACGGCACTCTGTACGCTACCGATGTCAGTTGTGTCAACTGTCTTGATTTTTCCAATTTTGAAGATACTTTAGATCTTGATGCTAATTTGATTTTAAATCAAACTACCTTTACTTGGACACAAAACTTTACCGGTGACACAACGACGGGCGTAACTTATAATGCCAATTCATTGACTACGGGAACTGCTATTAGTTTAGCCTCAACTTCAACCGCACTTACAACTGGCGGTCTTTTAAATATTACCGCGTCAGGAAATCCTGGCGCTTCGTGGACGGGAAATCTTGCTAAGATTGAATATACCACAAGTACAGACGCTGATATTGACGGCTCGGCTCTAAAAGTTGGCATAACTGGAGCTGGAGCCGGCGATGGCACAGCTTTAAATGTAACGACCGCCCAAACTGGTACTTCTGCTTATGCTCTCCGAGTCAACGATGATGGCACTTATACCGATACGACTCCTTTCGTAGTTGACTATGCTGGCAACGTGGGGATTGGGACGACGGCGCCTGCTTACAAACTCGATGTCGTCGGCGATGTCAATATCACTGGCAATTACACGGTGAACGGCTCCCCTCTATCATCGAGTAACTGGCAAAGAACCTCTCTTTCCTTGGCTCCGGCCCAGATCACTGACTCGGTCAATCTCGGCGCCACGGCCACCAGCTCCGCTCTGATCCATCTCTCCGGGTCAAGTGATGATAATCAATCTTTCTTCATGAACCCACTCGGAATTGGCTTCAACTCCGTCACCACCCCGATCACGAACGCCCTCGCAGTTCTTGAAACCGAGGGGCACATCCTACCCCACTCCGACCTGACCTACTCGCTAGGCAGTAGCACCCAAACTTGGACAGGTTTATATGTCAATCAAATTGCCGACGACTCCGGCACCGCCACCATTGATGTTCTCAATAATCAGCTGACCAATGGCGACTGGAAGGTGGCCTCCAAACTGAGAATTGGTAGCACCGTCGCCCCCACCTTCAACCTCGATGTCACCGGCACCGCCACCATTTCCGGCACTTTGGGTACAGAAAGTACTCTTTATGTCAAAGGTGATTCAAACCTGGCCGGTACTGTCACCGTCGGTGGAGGCTCCGGCAAGATGGACGTTGGAACGGTCGACCCGCCATACACCATTAACGGTGAAAAATACGCCACCTACCTCTCCAGCACCATTGGTATCAAAGAAGAAGTTATGGGAAAGATTACCGTTTCGGAAGCAGTGGACGGCTTGGGCTATCGAGTTCTTATCGACCTAGACGCTCAGCCCAAAGGTTCCGACCTCTGGCTTTTTAGCAAAACCACCGATCTAAAAGCCAACATCGATAGTCTTTCTGTCCTCCTCACCGCCGCCGGTCAAGCCAAAACCTGGTACGAAGTCGACGAGCCAAACAAAATTCTCGCCATTTACTCCTCCACTCCGGCCGATGTCACCTATCGCCTGACCGCTCCCAGATTCGATAGTGCCCAGTGGGCCAATACCAGAACCTCCGGCGCCGTCGGTTTCGTCTTAAACGACCCGGACAACAACCAAAACACTGCCGGTACCGGTCTGCTCAGTTCCCTGATTATTGCCCCAGAACTGATTGCCAAAGTTGATGGCTCCTATCAAGTAAAAATTAATGGTCAAGAAACCAAAGAGGTCTCCTCTTTCTTCCAAAGTCTAATTGCCAATCTAAAGGTCGGTGCTCAAGTAGTTACCGATCTGGTCGCCACCAACTTAACAGTCCGCACCAAACTCATTTCTCCCATCGCCGACATCGATCAGCTCAAAGTCATCGATGCCACCATCTCCGGCACTCTTTACGCCGACAATATCAAGGGCAAAACTGTCGACCATCTCACCACCCAGCTGGATCTTCTGAGCGAAAAATACTCCACCGCCTCCGCCATTCTGGCCGACCTCCAAGCCAAGTACACTTCTTACGACTCTCTCGCACTAGGCACCAATAACTCCGCACCAATCACCGATAGTGACCCGCTGGCTCTTTCACCCCTCGCCACCACCTCGGCCACTCTACCCTCAGATCTAGTCCTCGACTCCCTCTTGGTCAACGGCTCGCTCTTTGCCCAGTCATTTAGTTCTTTCGACAGCGATCTGTACATCCAACCCACCGGCGACAAACCGGTCCACCTCCTAGCGAATCTAATGACGCTTTACCCCGACGGCAAAATAGTGGTCAATGGCGATCTCTTGATTACCGGTACTATATATAGTATGGGGCTCGACACCCGCACCGCCACCGTCTCGGGCACTCTCGCCGCCGGCGGCCTCATCATCGCCTCGGACAATCTCGATCAGACGGCCACCATTTCGGCCCAAACCGGCTCCAACACCACCATCGGCACTGCCACCATTGCTAGTGGGTCGGCCGAAATAGTCGTTGCCAACCAAAAAGTTACCGATCAGACCCTGATCTACCTCACCCCCATCTCCGACACTTCCAACCAAGTCCTATATGTCAAGTCCAAACAAGCTGGTACGGGCTTCACCGTCGCTGTCCCTGCCTCCCCCTCCGCCGGAATCTCCTTCAACTACTGGCTAGTGGAGACAAAATAG
PROTEIN sequence
Length: 2025
CNGTITGTFAGTLPWSSIIAPTANLSLAHAGYTTAFTFDSLTSASAFALSSTSTAGGASGVSKLLDISRSGTNANASHTAYGLYSAVTNTGTTSTNVGGYFSASGATNNYGLIVENGSVGIGTTAPGANLEVAGQCITGDSLLSLADGSTQRIDQVKGGEYVLSFNETTGQLEPQPIKGLLNMGVKPVYKLTTKDGKTIRTTGNHPYLVKTSLPSQTEQDQIADDRNNNQSDNNQINVSLHNSSPSFLVNIIENNPDQTTDDSGQQISVGNIPFNHHLTSLANFNEIIKNTPDITSETTKVTVKSIIDLGRAKSGEIAPAENQATAIFPAISEDLPNWPVDNLPIPPNNITNQSNNVKSPANKSFSLGWTKVVDLSPGDEIAVMETTSDLKEVVFVKIASITYVGEEQVWDIEVKNTHNFVANGIVAHNTYINSTATTASIKGLEIAQSGAITGTGYGLYATKTGASTTNVGGYFSASGGTNNYAAIFDAGNVGIGTTGPDAKLDSLATTEQLRLTYTDGTVYSAHTVDSSGNLTIDNTGTKTIIADDLQITGGDILDSNGNESIRFGTTASAVNEATLTNAATAGTVLLAATGGDTDIALSIDSKGADALNLNGTATGDVNLAGGYGGTGCTVTNSNGNLSCNGTITGTFAGTLPWSSIIAPTANLSLAHAGYTTAFTFDSVTTADAFALASTSLTTGTLFDLSSTSTAGGASGVSKLLDISRSGTNSNASHTAYGLYSAVTNTGTTSTNIGGYFSASGATNNYGLLVENGNVGIGTTGPGSKLQIDGGASGNDILRIIRESNANNSFAFSAPGNDALLVMKELNAGTAWAMGIDTSNSDSFTLSQSTAFGTNDYFTVVGQGGNAGNVGIGTTAPSNPLHIAAQAPRIRLEDTLGTSNYSVISADNGQIILSADEGSQQGNSAFIVKVDNSEKLRVDSSGNVGIGTLTPDKKLSVWGGDGSIMDPTDLGTESLTNGNLTAGTSWTQTTDCALATDAATCTFAAGTASTVQQASGTLAVAGVGSRWYKFVYTVSGLTGTPTANITTAFASATTALTLTAGTQTTYFKSATTPTDFVITTTLTAGQAFTLDTFSLKEVQGGDFALGGILTGGGTTGLKVLANGNVGVGTVAPDSKFHTVGGDVYIAPDTGYTFDNGTANEDLYVYGNAEVDGTLYATDVSCVNCLDFSNFEDTLDLDANLILNQTTFTWTQNFTGDTTTGVTYNANSLTTGTAISLASTSTALTTGGLLNITASGNPGASWTGNLAKIEYTTSTDADIDGSALKVGITGAGAGDGTALNVTTAQTGTSAYALRVNDDGTYTDTTPFVVDYAGNVGIGTTAPAYKLDVVGDVNITGNYTVNGSPLSSSNWQRTSLSLAPAQITDSVNLGATATSSALIHLSGSSDDNQSFFMNPLGIGFNSVTTPITNALAVLETEGHILPHSDLTYSLGSSTQTWTGLYVNQIADDSGTATIDVLNNQLTNGDWKVASKLRIGSTVAPTFNLDVTGTATISGTLGTESTLYVKGDSNLAGTVTVGGGSGKMDVGTVDPPYTINGEKYATYLSSTIGIKEEVMGKITVSEAVDGLGYRVLIDLDAQPKGSDLWLFSKTTDLKANIDSLSVLLTAAGQAKTWYEVDEPNKILAIYSSTPADVTYRLTAPRFDSAQWANTRTSGAVGFVLNDPDNNQNTAGTGLLSSLIIAPELIAKVDGSYQVKINGQETKEVSSFFQSLIANLKVGAQVVTDLVATNLTVRTKLISPIADIDQLKVIDATISGTLYADNIKGKTVDHLTTQLDLLSEKYSTASAILADLQAKYTSYDSLALGTNNSAPITDSDPLALSPLATTSATLPSDLVLDSLLVNGSLFAQSFSSFDSDLYIQPTGDKPVHLLANLMTLYPDGKIVVNGDLLITGTIYSMGLDTRTATVSGTLAAGGLIIASDNLDQTATISAQTGSNTTIGTATIASGSAEIVVANQKVTDQTLIYLTPISDTSNQVLYVKSKQAGTGFTVAVPASPSAGISFNYWLVETK*