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BSR_inoc_33036_6

Organism: BSR_inoc_Bacteroidetes_46_9

near complete RP 47 / 55 BSCG 48 / 51 MC: 1 ASCG 13 / 38
Location: comp(9009..13967)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
1,4-Alpha-glucan branching enzyme id=3221870 bin=GWF2_Bacteroidetes_43_11 species=Marinilabilia salmonicolor genus=Marinilabilia taxon_order=Bacteroidales taxon_class=Bacteroidia phylum=Bacteroidetes tax=GWF2_Bacteroidetes_43_11 organism_group=Bacteroidetes similarity UNIREF
DB: UNIREF100
  • Identity: 51.5
  • Coverage: 833.0
  • Bit_score: 860
  • Evalue 1.40e-246
glycoside hydrolase family protein similarity KEGG
DB: KEGG
  • Identity: 47.2
  • Coverage: 878.0
  • Bit_score: 770
  • Evalue 9.50e-220
Tax=BJP_IG2103_Bacteroidetes_41_9 similarity UNIPROT
DB: UniProtKB
  • Identity: 45.3
  • Coverage: 1175.0
  • Bit_score: 1023
  • Evalue 2.40e-295

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Taxonomy

BJP_IG2103_Bacteroidetes_41_9 → Bacteroidetes → Bacteria

Sequences

DNA sequence
Length: 4959
ATGAACATCACACTTCTTTCTAAATCAAAAATAGTGGTAAGCCTGGTCTTTTTGTTTTTTCTCTTTGCTGAAATGTCAGCTTCCGCGCAGATATTTCTGCCTGAAGGTTTGAACATGCCCGGTGCATGGGACGGATGGAATAATCCTCCGACCAACCTTGCTTTTGCCAGCAGTTCTCAGGTTTCCGGAGGCAGGATCACCAAAATTAACACAGGCACTGCCCGCTGGCAGACAACCTTTAGCGTGGCGGCCAGTGGCGCCGATGTAACCGGAGGAACCTACGAATGGCTTTTTACAAGCGGCTCGTCTGGTAGCCCCTGGAATAACAAATGGGGTAATATTACAGTTTCGATGAACAACCTTCAAACATATTCCTGGAGCAGTTCAGCTTCCAACAATTACATCACGGTAGCCAACGGAAGATGGTACACCATGAACTGGCGCGACCAGGGCTATACAAATACACAGGCCATTTTTATGGAAACTTCGGCAGCGCCTGTCTCCATTACTTCGGTAACGCAAAACCCGGTATTGGTTACCAGCGCCGATGCGGTTATCATTTCGGTAAGTTATTCAGCCACGCCATCAGCCGAAGAGAAATTTTATGTGAGATACACCACCGATGGATGGAGCACTTCATCATTGGCGGCGGTTTCGTCTGAAACGGCAAGCATTCCCGCCCAGCCCAGCTCCACCAAAGTGGAATATTATGTTTTCAGCACCACCATCACCAATCCATCTGCCGAGTTCGACATGCTTACCATCCGTCTAAACAACAACAATGGAAGCAATTACAGCTATATTGTCGGTCAGACGGCCAGTTGCGGCAGTGCCGTTGTAAGCACCGATCCGACTTTTCCAAAAGAAGGCACCTCGCTCACTCTCACTTTTGATGCTACCCAGGGAAATGCTGCCTTAAAAGATTATAATTCCGATGTCTATATTCACACCGGAGTCATCACCAACCTGAGTGCAAGCGATGCCGACTGGAAATACACCAAAACTGCCTGGGGAACCAACACCACTGAAACAAAATTAACGTCGAACGGAAATAATCTGTACAGTCTTACGATTAGCGATATCAGGACTTATTATGGCGTTCCTACAGGTGAACAGATTTTGAAATTAGTCATGGTTTTCCGCAGCGACGGAATACATCCAACCTCTGGCAGCTATATCGTCCATAAAAATGCTGATAATTCGGACATTCTGGTCGATGTTTACACCGAAACTTTGCATGTTAAGTTGTTGAATCCTTCCTCTTCGAATACCATTATTGGCTCCGAAAGAATTATTTCGGTATGTGCGGCAGCCATCAATCACAGCAATCTGGCCATTTATCTCGATAATAATCTGATTTTGCAAACGGCGGCGGCTTCACTTTCGGAGCTGGTGAGTATTCAGGGTTTGTCTGCAGGAATTCATTGGGTAAAAGCCGTTGCTACTTCGGCGAAAGCTACGGTTGAACAGCAATATTCGATTTTTATAAAAGGGGCGGTAAATGTAGCTTCATTGCCAGCAGGCACAAAACCGGGAATAAATTACATTGATGCAGAGACGGTAACGCTTGTCTTGCATGATCCGCCAGGTTACAAACAAAATGTTTATGTGTTGGGTGATTTTAACGATTGGTCGTTAACTCCTTCGGGCCAGATGCACCGCACACCCAGCGGTATGTACTACTGGATTACCTTAACCGGCCTTACTTCCGGGGAGGAATATGCCTACCAGTATCTGATAGATGGCGATATTAAAATTGCCGACCCTTACTGCAACAAGATCCTCGACCCATGGAACGACCCCTATATTTCGTCAACGATTTATCCCAACCTCAAAGCTTATCCCACCGGAAAAACCACTGGTATTGTAAGTGTTTTACAAACCAACCAGACGCCTTATGATTGGGAGGTAACCAATTTCACCAATCCGGATGTACGCGACCTGGTGATTTACGAACTTCACCTCCGCGATTTCACTACCGAAGGAACCATTGCTGCAGCCATGCAGAAACTGGAATATCTGCAAAGCCTTGGAGTCACAGCCATCGAGCTGATGCCTTTTAATGAATTTGAAGGCAACGATTCGTGGGGTTACAATCCTTCGTTTTATTTTGCTCCTGATAAAGCTTACGGTACCGCCGACGACTACAAAGCCTTTGTTGATGAATGTCACAAGCGTGGTATTGCTGTTATTCAGGATATGGTTTTAAACCATAGTTTCGGGCAATCGCCGCTGGTTCAGATGTATTTTGATGCCACTGCAGGTGATTATGGAAAAGTTACTGCGCAAAATCCCTGGTACAATGTTGATGCACCAAACACAAGCTGGTCATGGGGTTTCGATTTCAATCACGAAAGTATTTACACCAAAGCCTTTGTGGATAGCGTAAATGCTTTCTGGACCAGCCAGTATAAAATTGACGGCTTCCGGTATGATTTTACAAAAGGATTTACAAACACAGTTGGTGATGGCTGGGATTATGATTTGTCGAGAATCAATATTCTGAAACGCATTTTTAACCGTTTGCAGGTAATCAGGCCTGATGCTTATCTTATTTTAGAGCATCTCACCGATAATGAGGAAGAAAAAGCATTGGCCAACTTTGGAATGTTGTTGTGGGGAAATATGAATCACCAGTACAACCAGGCAACAATGGGTTATTCGAATAATTCCGACTTGTCGTGGGGCACACATACGGCACGCGGGTTTTTGTACCACAACCTCATTTCATACATGGAAAGCCACGATGAAGAAAGGTTGATGTATAAAAATCTCCAAAATGGAAATAGCTACAACCCATTGCATGATTGTAAGAATTTGAATATCGCTTTGTCGCGGACAGGCCTGGCAGCAGCTTTTTACCTCGTAACGCCGGGGCCGAAAATGATCTGGCAATTTGGTGAATTGGGCTATGATTTTGGTATCAATCACTGTCCGGATGGAAGCTACAGCAGCGAATGCCGCACTTCGCGCAAACCCATCCCCTGGGAAGCTGAGTATGATTATTACAACGTAGCTGCCCGAAAAGCACTTTACAACCGTTTTGCCCAGCTCAACCGACTGAAAACCAATTTTCCGGTATTCCGCACCAGCAATTTCAACTACTCCCTCGATACCTATTTGAAGCGGATGCATTTAACCACCGATGACCAAAAAGTAACACTGATTGGCAACTTTGATGTTGTAGCACAAAACATCATACCTTATTTCCAGCAAACTGGCACATGGTACGAATATTTTACCGGCGAAATCCGCAATGTAACCAGCACCACCGACCCTATCAATTTGCAGCCCGGAGAATATCGGTTGTATTCGACCTCAGAATTTTATAACGATTATTACGCTAAAGCAACCGGCAATCTGAATGATTTGTCAAGCTGGGGAACCAATACCGATGGCTCAGGAAGCAATCCTGCCGATTTCACAACAGCCCATTCAAATTATTATATCTCCAATCAGGCAAACCCAACCGTTTCGGGCGACTGGACGGTGAGTGGAACCGACAGCCGTGTAATCATCGGCAATGGAACCGACGCCGTAAATCTTAGCATCAGCGGAAATATGACAGTTGGTTTTATCCAGATCAACAAACGCTCAAAACTGATCATCAACCCAACGGCGGCAATTACTATAAATGAACGCCTGGCAAATGATGCCGGAACCGACGGGCTGGTCATTAAATCAAATGCCACACAAACCGGCTCGCTTATTCACGATAATTCAGGTCTGCAGGCTACAGCCGAAAGATACATTTCAGCCTGGACCGACAGCAACCATGGTTGGCATTTCGTGTCGTCGCCGGTAAATAATTTTGCGCTTGCCAATTCGGATTTTATTGTTAATCCTGATGATTATGATTTTTATGCCTGGTCGGAAACAAATAATTTATGGCTGAACCAAAAAGTTACAGCCAACAATATCACCAGCTTTGAACCTGGTAAAGGCTATTTGGTTTCGTACCAAACTGCGGCAACCAAACATATAACCGGAGCATTAAATGTGGCTGATGTTCGGATTAGTGGACTTACGCATACAACTTCTTCATCATCCAGAGGCTGGCATTTGCTTGGGAATCCATTTTCATCTGCTTTAAACTGGACAAGCGGTTCATGGAATAAATCATCGTCAATAGGAGGTGTGCCACAAATCTGGGACGAAGCCACAGCAAGCTACAAAACATTAACTGATGGCATTATCCCTGCCAATAACGGGATAATGGTTTTTACGTCGGAAAATGGCGGTTCACTTACCATTCCTGCTAACGCCAGGGTTCACAGTTCGCAAAACTGGTACAAAGCCGGCACAGCATCGACGAACCAGATTACACTCTCTGCAATAGATTTAATCGGAAACACGGCCCAGCAAATCATCATCCGCTTTTTGCCTGAAGCTACCACTGGTTTCGACCTGGCCTTCGACTCGTACTTTTTGCCTGGTTATGCGCCCATGTTTTATTCATCAACCGAGGGTGAAAACCTGGCAGTAAATTCACTTCCTGTAAATCGCAATGAGATTTCTATTCCGCTGGCTTTTGTTAAAAACAACGCATCGGATTTCAGCATCCAATTGACTGAATTCCCAAAGGGCAGCAGGGTTTTTTTGCAGGATTTAAAAACCAATATCACGCATCCAATTAGCCAGACACCGGTTTACAGTTTTACTTCTGCTCCGGGCGATGATGCCGACAGGTTCAGACTTTTGTTTTCGCTGGTAAACATTCCTGAACAGAAAACAGAAAACATTGTTTTATTTACTGATAATTCACATGTTTTTGTCGAAGTTCCCGAAAGCCGTTCCGGGGGAATCATTGAAATATTTGACATTCAGGGCAGGTTACTTTTAATGGGTCATGTACGACCTGGAAGCAATCGGTTTATCTCGCCGGCAAAGGGGGTTGTGATGGTGCGGGTAGTTGCAGGTGGTGAAGTAGTGAATAAAAAATTGATTATTAATCATTAA
PROTEIN sequence
Length: 1653
MNITLLSKSKIVVSLVFLFFLFAEMSASAQIFLPEGLNMPGAWDGWNNPPTNLAFASSSQVSGGRITKINTGTARWQTTFSVAASGADVTGGTYEWLFTSGSSGSPWNNKWGNITVSMNNLQTYSWSSSASNNYITVANGRWYTMNWRDQGYTNTQAIFMETSAAPVSITSVTQNPVLVTSADAVIISVSYSATPSAEEKFYVRYTTDGWSTSSLAAVSSETASIPAQPSSTKVEYYVFSTTITNPSAEFDMLTIRLNNNNGSNYSYIVGQTASCGSAVVSTDPTFPKEGTSLTLTFDATQGNAALKDYNSDVYIHTGVITNLSASDADWKYTKTAWGTNTTETKLTSNGNNLYSLTISDIRTYYGVPTGEQILKLVMVFRSDGIHPTSGSYIVHKNADNSDILVDVYTETLHVKLLNPSSSNTIIGSERIISVCAAAINHSNLAIYLDNNLILQTAAASLSELVSIQGLSAGIHWVKAVATSAKATVEQQYSIFIKGAVNVASLPAGTKPGINYIDAETVTLVLHDPPGYKQNVYVLGDFNDWSLTPSGQMHRTPSGMYYWITLTGLTSGEEYAYQYLIDGDIKIADPYCNKILDPWNDPYISSTIYPNLKAYPTGKTTGIVSVLQTNQTPYDWEVTNFTNPDVRDLVIYELHLRDFTTEGTIAAAMQKLEYLQSLGVTAIELMPFNEFEGNDSWGYNPSFYFAPDKAYGTADDYKAFVDECHKRGIAVIQDMVLNHSFGQSPLVQMYFDATAGDYGKVTAQNPWYNVDAPNTSWSWGFDFNHESIYTKAFVDSVNAFWTSQYKIDGFRYDFTKGFTNTVGDGWDYDLSRINILKRIFNRLQVIRPDAYLILEHLTDNEEEKALANFGMLLWGNMNHQYNQATMGYSNNSDLSWGTHTARGFLYHNLISYMESHDEERLMYKNLQNGNSYNPLHDCKNLNIALSRTGLAAAFYLVTPGPKMIWQFGELGYDFGINHCPDGSYSSECRTSRKPIPWEAEYDYYNVAARKALYNRFAQLNRLKTNFPVFRTSNFNYSLDTYLKRMHLTTDDQKVTLIGNFDVVAQNIIPYFQQTGTWYEYFTGEIRNVTSTTDPINLQPGEYRLYSTSEFYNDYYAKATGNLNDLSSWGTNTDGSGSNPADFTTAHSNYYISNQANPTVSGDWTVSGTDSRVIIGNGTDAVNLSISGNMTVGFIQINKRSKLIINPTAAITINERLANDAGTDGLVIKSNATQTGSLIHDNSGLQATAERYISAWTDSNHGWHFVSSPVNNFALANSDFIVNPDDYDFYAWSETNNLWLNQKVTANNITSFEPGKGYLVSYQTAATKHITGALNVADVRISGLTHTTSSSSRGWHLLGNPFSSALNWTSGSWNKSSSIGGVPQIWDEATASYKTLTDGIIPANNGIMVFTSENGGSLTIPANARVHSSQNWYKAGTASTNQITLSAIDLIGNTAQQIIIRFLPEATTGFDLAFDSYFLPGYAPMFYSSTEGENLAVNSLPVNRNEISIPLAFVKNNASDFSIQLTEFPKGSRVFLQDLKTNITHPISQTPVYSFTSAPGDDADRFRLLFSLVNIPEQKTENIVLFTDNSHVFVEVPESRSGGIIEIFDIQGRLLLMGHVRPGSNRFISPAKGVVMVRVVAGGEVVNKKLIINH*