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qh_10_scaffold_146_26

Organism: QH_10_UNK

megabin RP 54 / 55 MC: 52 BSCG 49 / 51 MC: 47 ASCG 38 / 38 MC: 38
Location: 28538..32368

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Ribonucleoside-diphosphate reductase n=1 Tax=Gillisia limnaea DSM 15749 RepID=H2C0B8_9FLAO similarity UNIREF
DB: UNIREF100
  • Identity: 38.2
  • Coverage: 733.0
  • Bit_score: 493
  • Evalue 8.00e-136
Uncharacterized protein {ECO:0000313|EMBL:KKN70819.1}; TaxID=412755 species="unclassified sequences; metagenomes; ecological metagenomes.;" source="marine sediment metagenome.;" similarity UNIPROT
DB: UniProtKB
  • Identity: 36.2
  • Coverage: 999.99
  • Bit_score: 765
  • Evalue 8.90e-218
putative ribonucleoside reductase similarity KEGG
DB: KEGG
  • Identity: 39.7
  • Coverage: 735.0
  • Bit_score: 493
  • Evalue 2.30e-136

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Taxonomy

marine sediment metagenome

Sequences

DNA sequence
Length: 3831
ATGAGCGATAGCGCAACCGAATATTTCAATAACTCGTTTTTGCCATCCGACGTTTGGGAAGAAAAGTACCAGCTTACTACTATTAGTGGTGAGCCGAAAGAAAAAACTCCCGAAGACATGCACCGAAGAATGGCCAAAAGGTTTGGGAGAATTGAAAAAGAATACAAATCTGAACGGAAGTCAGCATTGGAAAAAAACCCGGAGATTCTTAGTGAATATGGAAAAAGGCGGGAAGAGCTTTACGAAGATAAAGTTTTCCGGCTCTTTGATGAGTTTGAATATATTGTCCCACAAGGGTCAATCATGTCGATGCTTGGAAATCCGTATCAAGTCGGATCGCTTTCGAACTGTGTGGTTATTCCCGATGTAGTTGATTCTTATGGTGGTATTATGTACACCGATCAACAGCTTGCGCAGCTTTTCAAAAGAAGGTGTGTTCACGAAGACTCTTATGTTCTTACTGAAAGCAATGGGTTTGTGAAGGTTGCTGATCTTGAAGTAGGAGATTACATTCTTTCTCGTGGAGAAACTGAAAACGAATATAAGCGAGTTACTGACAAGTTTGTTGGAGATAGTCAAAAAGACAAGTACAAGGTCACTCTTCAATCGGGGACTACTCTTAACTTGCTAGAAGATCACCGGGTTTATCTCTCTGAAGAAAATCAGTATGTAAAGGCTGAAAATTTGTCTGAAGGCGATATTGCAAAGGTTTCAAATTTTGATTATGAGTTAACTGAGTTTGATAAAAATCTTTCCGATGCCGGGTGGTTCATAGGGTGCCACATCGGGGATGGTTCCGTAGACAGCGATGATAGAAAATATCAAGGACCAAGATTCAGAATTACCGGCGAAAATAAAACTGTAGTTGATGAATATGGTTCAATTCTGAATGGGTTTGTAGGCTCAAATCGAAAAACATCCGAACCTGCAGAGCGGGAATACTATGAAAGTGATGTTTACAAATATACTCAGACTGCTAAAAGTACTGAAACTGTATTAAACAAGTACCTTGATGGACAGAGGGGAAGTAAAGTAGTTAATGCATCTATCCCTTCTTACATTAGCGAAAACAATTTGTATCTTCCGTTTATAGGGGGTCTTATTGATTCGGACGGATGGATTAAAGATAACGGAAGTGCTATTTGTATAAGAATTTGTGCAAAAGAGGTTATTGATGAACTTGCGCAAGTTCTTCGATCATCTGGGTTTTCAATCAATGTTTTTGAAAAACCCGTAAGAGAACGAGAAGATCACATTATACAAGGCAAAAATGAGCAATATGAACTTTACATAAGAGGGTCTTCTCGTTTCTGGAAAGAAATAGCTCCTTATATTAAACATCCAGAAAAAAAAGAGATGGTGGAAAATGCTGATATAACCACCCACTCTCGAAAATACTTTATTTCTTCTGAATGGAAAAATGAAATTCTTGGAAGATATGAATCTCTTGACTGGGGTGAAGGTAATAACCAGTTAGCTGCGGTAATTTACATTCTTCGACAACAAGGGAAGCTCGCAGACTCTGGGTTAAACACTCTTTTTGAAAATAATCTTATCGATGAAGAAGAATTTCAAGAAATAAGGTCACATAGAAAAATTAAGAAAATTGAAAAGGTAGTAGAAGATGGTGAAGATTATTATGATCTTACCGTCGAAGAGAACCATAACTTTTACACCGGGAACTTCGGTCTTTGTTTGACTCATAACTGTGGTGTAGGCGTCGACGTGTCTCGGCTACGACCAGAAGGAGCAGGCGTCAGAAATGCCGCAAGAACCTCCACTGGAGTCGTGAGTTTCATGCATAGGTTCAGTGATACCACAAATGAAGTCGCTCAAGATGGAAGACGTGGAGCTTTGATGCTTACTCTTGATTGCCGCCACCCGGACATGACTCGGTTTGTTGAAGAAAAAGACGATCCGACCACAATGACAGGAGCGAATATTTCAGCGAAGTGGACAGATGACTTTCTTCAGGCGGTCGATGACAATGAGACATATACGCTTCGTTTTCCGGTGGACGCGACGCCTGAAGAAGCCGAGATTACAAAAGAGGTGAATGCCCGAGAGCTCTTTAAAACCGCCTCAGAAAATGCGCATATTCATGGTGGAGACCCCGGCTGCATGTATATTGACCGGATGGAAGATTATTCAACTGGTTGTGGATATCCTGATGTCAGTGTTCTTTCAACAAATCCATGTGGTGAGATAGGCATGGGGAATGACTCTTGCAGACTTATAGCAATGAACCTTATGTCTGTTGTAGAAAATCCATTTACAGACAAGGCGAGTGTAGACCACGGGCTGCTTTACAAAATTTCTTATGAGCAGCAAAGGCTTCTTGATAATCTTGTGGATCTTGAAGTTGAAGCAATCGATAAGATTATTGAGAAAATAAAAAGTGATCCAGAAGATGAAAAGTACAAAAGAGTTGAAATTGAAACTTGGGAACAGCTGAAAGAAGCTGGAAAGAAATATCGAAGAACCGGTGGAGGATTTACTGCTCTTGGAGATATGCTTGCTTCGCTTGGAGTAGAGTATGGTTCCGAAGAATGTGATGAAGTTCTTCATGAGGTGATGAGCACGAAGCTTAAAGGTGAGTGGGACGCCTCTACTGATCTCGCCATTGAACGAGGAAGTTTTCCGGAATGGAGTTCTGAGCACGACAATACTGAGTTTTTCGATATGCTCGAAGAAGAATTTCCTGAAGTTTACGAAAGGAACATGAGCCACGGAAGAAGAAATATTTCTCTGTCTACCGTGGCTCCGACTGGGAGCGTTAGCCTCATGTCCAAAATTGAAGATGATTTTGGGACGACTAGCGGCATTGAGCCCCTTTTCTCGACGGAAAAGAATAAAGCTTGGTATACCCGAAATAAGCGGGCTGACGGAGACGAAGATTATGACTATATCGACGAAGAAGGAAATAAGTGGAAGCAGTATCCGGTGTTTCACAACGGATTTCGGATTTGGATGAAAAGAAACGGATACGAAAACCCAACCGAAAAATCTGAAAAAGAGTTGAAAGAAATCTTCAAAGAAAGTCCATATGTCACTTCCGCTGGGCTTCATTGGGAAGACCGGCTTCGAACCCAGGGAATTGTGCAAAAATACACGACACACAGCATATCTAGCACCTTAAATCTTCCGGAAGACGCTGACATTGAAGAAACTTACAAGATTTACAAGAATGGAAGAAAATATGGCCTTAAAGGTGCTACAATCTTCCGGAATGGGTCCAAACGAGGAGTTCTTGAAGGTGAAAGCGATGAAAGTTCTGCTGGTGATGAAATTACTTATCACGATGCGCCGGAGAGACCGGAAGTGCTAGAAGCTGATATCCACCAAGTTCGGTATGGCGGAGAGCCTTGGAAAATTCTTGTCGGACGGCTTGATGAGAACCCTTACGAAGTTTTTGCAATTAAGACAGGCGGAGACACGGGAATTAGGGTCCGGTTTACTGATTCTGAAGACAATAAAATTGAAGAAGGGCTGATTCGAAAGACTGGAAGTGGAGAATATAATTTCGAAGCAGAAGACGGAAAAGTTGTTATTGAAGACATTGCAGAATACGCTCCAGACGACAATGTTCGAGTTGACACCCGGCTTCTTTCACTTGCCCTGCGTCACGGAGTTGAACCAGAGTACATTGTCAACCAGCTTGAAAAGGCAAACGGAAGTGTCGTTTCGTTCGGGCGAGCGGTGCTCAAAGCAATGCGCCGTTATCTCGACGTTAACCCTGATGACGAATGCCCTGAATGTGAAGAGGAAAGTCTTGCTTTTGTTGAGGGGTGCGTTCGCTGCAGAAACTGTTCATTCGCGAAATGTGGTTAA
PROTEIN sequence
Length: 1277
MSDSATEYFNNSFLPSDVWEEKYQLTTISGEPKEKTPEDMHRRMAKRFGRIEKEYKSERKSALEKNPEILSEYGKRREELYEDKVFRLFDEFEYIVPQGSIMSMLGNPYQVGSLSNCVVIPDVVDSYGGIMYTDQQLAQLFKRRCVHEDSYVLTESNGFVKVADLEVGDYILSRGETENEYKRVTDKFVGDSQKDKYKVTLQSGTTLNLLEDHRVYLSEENQYVKAENLSEGDIAKVSNFDYELTEFDKNLSDAGWFIGCHIGDGSVDSDDRKYQGPRFRITGENKTVVDEYGSILNGFVGSNRKTSEPAEREYYESDVYKYTQTAKSTETVLNKYLDGQRGSKVVNASIPSYISENNLYLPFIGGLIDSDGWIKDNGSAICIRICAKEVIDELAQVLRSSGFSINVFEKPVREREDHIIQGKNEQYELYIRGSSRFWKEIAPYIKHPEKKEMVENADITTHSRKYFISSEWKNEILGRYESLDWGEGNNQLAAVIYILRQQGKLADSGLNTLFENNLIDEEEFQEIRSHRKIKKIEKVVEDGEDYYDLTVEENHNFYTGNFGLCLTHNCGVGVDVSRLRPEGAGVRNAARTSTGVVSFMHRFSDTTNEVAQDGRRGALMLTLDCRHPDMTRFVEEKDDPTTMTGANISAKWTDDFLQAVDDNETYTLRFPVDATPEEAEITKEVNARELFKTASENAHIHGGDPGCMYIDRMEDYSTGCGYPDVSVLSTNPCGEIGMGNDSCRLIAMNLMSVVENPFTDKASVDHGLLYKISYEQQRLLDNLVDLEVEAIDKIIEKIKSDPEDEKYKRVEIETWEQLKEAGKKYRRTGGGFTALGDMLASLGVEYGSEECDEVLHEVMSTKLKGEWDASTDLAIERGSFPEWSSEHDNTEFFDMLEEEFPEVYERNMSHGRRNISLSTVAPTGSVSLMSKIEDDFGTTSGIEPLFSTEKNKAWYTRNKRADGDEDYDYIDEEGNKWKQYPVFHNGFRIWMKRNGYENPTEKSEKELKEIFKESPYVTSAGLHWEDRLRTQGIVQKYTTHSISSTLNLPEDADIEETYKIYKNGRKYGLKGATIFRNGSKRGVLEGESDESSAGDEITYHDAPERPEVLEADIHQVRYGGEPWKILVGRLDENPYEVFAIKTGGDTGIRVRFTDSEDNKIEEGLIRKTGSGEYNFEAEDGKVVIEDIAEYAPDDNVRVDTRLLSLALRHGVEPEYIVNQLEKANGSVVSFGRAVLKAMRRYLDVNPDDECPECEEESLAFVEGCVRCRNCSFAKCG*