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H3-16-all-fractions_k255_3547629_1

Organism: H3-16-all-fractions_metab_conc_40

near complete RP 45 / 55 BSCG 48 / 51 ASCG 14 / 38 MC: 1
Location: comp(1..4710)

Top 3 Functional Annotations

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Value Algorithm Source
Peptidase M10A and M12B matrixin and adamalysin n=1 Tax=Fluviicola taffensis (strain DSM 16823 / RW262 / RW262) RepID=F2IFW8_FLUTR similarity UNIREF
DB: UNIREF100
  • Identity: 32.4
  • Coverage: 1296.0
  • Bit_score: 508
  • Evalue 1.30e-140
peptidase M10A and M12B matrixin and adamalysin similarity KEGG
DB: KEGG
  • Identity: 32.5
  • Coverage: 1296.0
  • Bit_score: 508
  • Evalue 3.70e-141
Peptidase M10A and M12B matrixin and adamalysin {ECO:0000313|EMBL:AEA43589.1}; Flags: Precursor;; TaxID=755732 species="Bacteria; Bacteroidetes; Flavobacteriia; Flavobacteriales; Cryomorphaceae; Fluviicola.;" source="Fluviicola taffensis (strain DSM 16823 / RW262 / RW262).;" similarity UNIPROT
DB: UniProtKB
  • Identity: 32.4
  • Coverage: 1296.0
  • Bit_score: 508
  • Evalue 1.90e-140

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Taxonomy

Fluviicola taffensis → Fluviicola → Flavobacteriales → Flavobacteriia → Bacteroidetes → Bacteria

Sequences

DNA sequence
Length: 4710
ATGAAAAAATTATTCTTCTTTTCAATTCTTATATTCCTTTATGTTGCAGGGAAAGCACAATTCAGCCCATTGGGAAATGTAACTCCTGACGCGGTATTTGATACATTGTATGATAAGGACGCCAGGAAATATAGTCTTCGCGATCTTCGCATTGATACGAATCAGCTCTATGTAGGAAGCCCGGGAAGCAAAGTGCTTGCAAGTTGTCCAACCGGTTCGGGATATTTTAGATTGTTTTTTGAAACCGGATGTGGAATGGATGGTAATACTACAGCAGATATCGATAAGCGGAAAGTGCTGTGCCAGTTGTTCAAGGATATTTCCACTTTCATGCCTGCGCCTACGGGAACACCTTTAGCCAATGGAACTGCCTTTGTAAATGTATGGGTGAGAAATATTGCCAATATATCCAATGTCCCGGCATCTACGGCAGGATTAGCGCTTTCATTTTATCCTTTACCTACTGGTAGCGCAGTAACGGGCATTGCGGATAATATGGTATGGACAACAGTGAATTCAGGCTACGACGGCTATACCAATTTTTCTTCTCCTCTAATTGCACAAGGAGGTGGACAATCAAATAATTTTTACCACATGGCAATTGCCTTTGATTTTAGTTTAAGTACCTGGCATTATACCTGGAGCGGGTCAACTCTTCCGACAGCCGCTGCCGGAGTAATTGACCTATATTCCATTGCTCTGCATGAAGCCACTCATGCTTTAGGTTTTGCTTCCCTTATCCGGTCGAACGGCCAATCTGTTTTACCGCAGCAATATTACAGTCGTTACGACCTGCATTTAAAGAACAATGCAGCTACACAAAATTTAATAACTAATACCGGCTCATGTAACCTGTATAGCTTTGGATGGAACTCATCCCTGACAGCATCCACAACGCTTTCACCCAATGCGGGAAGTCCTAACCCCAACCATACAACTTGTGGATCAGCCATAAAATATGCTTATACCGGTGGTGGGACTCAAATGGTTTACACTACTAATGCTTTTCAACAGGGAAGCAGTCTCAGCCATTTTGAGGATGAGTGCCAGGTACCTGCTACATTTACCGTAACCCCCAGCAACGATGAGTATTTTGTGATGAGCAATTCGGGAGGAACAACAAATAACAAAAGATTTCTTCGTCCTGAAGAGCGAAGCGTTTTGTGCGATTTGGGTTATTACGTAACCAACAGTTATGGAAGCACTACGGTCACGCAATCCGCGAACACTTATACTGCAAGCGCCTGCAATGGTTCGCAGGTAGTAGGGATCAACGATGGCATCAGCAGTACAGGCGCCTATCAATATGTTACCAGTCAAAATACGCTGATCAACATACCTTGTACCACCGCGGTAGGAACAATGCCGGCGGTCCTTCTGAATGATCAGTTCGCTTCTGCAACTCTTGCCAATAAAAAGCTGGAGTGCGTCCAGGATATTACCAATAACACCACCGTTTCATTTACCGCAACAAACATAACTTATACGCCTCCGACCGGCTTTATTGGTACTGCTGTGCTGCGTTATGTTCCGTATGATAATGCTACTGGTATCCGTGGCAACATCACTTATATTTACGTATTTGTGCGTGATCCAAACTGTATCAACCTTTCTTCCTGTGATATGGTCAGCAATGGTAATTTTGAATCCAATGGAGGCTGTTCTATCTGGTCTAATGTAAAAGAATGCTGGCAGAATTTAGCCGGAACCTGCGATCGCTTTGGTAGAGGTTGTACTGGAATTTATAACGTGGGTACTTCGACTTTTGGAAGCACGCCGGCATCTGATTCACATAACGGTACGCCCAACGATAAATTTGTTGGCTTTGGTGGAGAAGTGGGTGTGGAATGCGAGGCCATCTCCACAAACCTGAACACTGCGCTAGCCCCATCCGCTAATTATGTATTGTCCTTTTGGGCTAAGAACTGCAATGCGGCGACTTTTTCCGGGTCTCCCATGCTTATCGGTTTCAGCAGCGTTCCGAGCCAGCTTTTACCACTGACCATTAGCCAGAATTTCAATACACAGGTGCCTGGCGCCTCCAGCCTTATTCCCTCTCAAACGGTTCCTTTCGATAATGCCTGGCATTATTACTCCGTTCCTTTCACATTTACCGGAACGGTTAACCACAACACGCTCGTGGTTTGGTGCGATATCTTTCCCGCAGCTGCAGGAACGAAAGTATATTCCTGGATCGATGAGATTTCCATAGTTCCCGCCGCCGTTGGTCCTGTTCTCACTGTTCCGCCAACTGTTTGCCTGGGAAGTAATATTTCTAACCTTATGACCTATGTAAGTCCAACCGGAGGAGTGTTTTCCGGAACGGGTGTCAGCTTAAGCGGAGGAATATACAGCTTCAATTCCACTACTGCGGGTTTAGGCACTCATTTAATAACCTATACCTATACGAGCGGAGCTTGCTCTTATCCTTCATACGCCAACATTACGGTAGCAAATAGTGGTTGTACATTGCCGGGAGGAAACAGTAACAGCATTGCTGCTGCCACCACTTACACAACAACCAATACAAACTTCAGCTTACCGACAAGCCCAACATCGAATCCTATATTGATCTCGGCGAACGTCACCATTGGAAACGGAACAAGCACCAATACGGTTACGGTCAATTGTCCCGATGTGCGGATAGCCTCAGGAGTTAAGATCCTTGTAAAGGCAAATGCCACCCTGGTTATAGATGGCAGCTGGCTCCATGCCTGCGCGCAATGCAATGGCGGCATGTGGCAGGGAATAGAAGTAGAGTCGGGGGCAACCCTTGAGGTAAAGAATAATACGATCATTGAGGATGCGCTTTATGCAGTGAACGCACTATCCGGAACACCAAACCTAAAGATCAGCAATGCGGTCTTCAATAAAAATGATTATGGCATCAATATTAATTCAACTGCTTCCAATTTGCAGGCTTCCACAACTAATATTGTAAAGAACTGCATTTTTAGCTGCCGTACTTTAGCCGTTCCTTCCACGCTTGCCGGTTTTGCCGGTTATTTCAGTGCGCTCAAAAGCAATATGAGTGGTTTAAGCCTCAGTAGCTATCCAATTACAACTACCCTTGCGCAGGTACGGAGCCGTTATGGAATGTATTTGAATGCGCTTACCTATGCTACAGCCTATAAAGTGGGTACAACAGCCACTACGGGAAATCCCGAGCTGAACTTTTTTGATTACCTCGATTATGGTATTTATGTGAGCGGAAGCAATGCGAACATCAAGAACAATACCTTCCAGAATTGCAGCGGAAGAAACAATTCAGGACTTGTAACAGGAATTGGCGTTTGCGGGGTAAACCCTTCCGATCCGTATAGCATTACCATTGGCAATGATTACAACAGCACTACTTATCCTACAACGGAAAGGAACGTTTTTCGCAATAATCTGAGGGGAGTGGATATTTCTAACTTCATTAAGAATTACGTGATCAACAACAGCTTTGATAATACTTTTGTGGACACCTGGGCCAATTTCAGTTACCTGTACAACACCACCGGACAATACGCAATATTTATAAAGCCAAAGATCACCGCATCCACAAATGACCTGAAGGCGAACAAAAATGTGATCAATAATTGTTCGTATGGAGTTTACATCAACCGTCTTACGAATTTTTATGATCCTACAACTTTTGAAGTGAACAATAATGCTGTAACCGTTTCAGGGGGCAATCACATGGCTGTTGGCTTATTTATGGAAGATGCTGCAGGGAACAGTCCTACCGGGACGGGCATTCTTTATTTTAAAGGCAATACTGTGATAGGAGCTGATTATTTTGGGATCCTGGCTAACAACATTTACAAAGGCTTGCAAATTACTTCCAACAATGAATTAAGTGTAACTGCAGCTAATCCGTCTGGGTTTCCGGGTGGCTCTCCGCGCGCTTCTATTGGGCTGCAATACTGTAACGATGCTCAGGTAGATAAGAATCTCACCGTAAAGGCAACTAATTTTACAACTACGGCCAATATCAATAATGTCAACGCTGACCTTTACGGGATCTTTATCACAGGAAGTCCGGGCTCGATTGTGACCTGCAACCAGGTGCAAAATACGGATAAAGCCATCGCATTTGAAGGAAGCTGCTCCGCCAGCGCAAATCGTACCACCCGGTATGAACAAAATAACCATTACACCACTAACTTTGGATATGTCCTGCAAAATGCTGGAGCGATTGGAACACAGGGAAGCGCAACGGTTTGTATGGATAATGTTTATGGCAATACAGGGACACAGGCAATTACGATTGCTCAGACCTTTGTCATAAGTACATCAACCGCTAATACTGGCTCTAAGTTATATGTCCGCGCTAACACATGCAGTTCAGTAACTGTGACTCAGCCATGCAATAATCTGGGCTCCGGAGCGACGCCATATTCAACCACCGCGTTTGGAATTAATATTTCTAGTTGCGTAAGTAATATAGATCTTTGTGCCGCTGGCGGCGGAGAGGGAGGAAAGTTAATTGGCTATTCAGATAGCTTAATAAGCGATTCCATAAACGCCTCAATAGCTGCTATTTTGCTAAATCAGTTGAATGATTCTACCACAGAAGAACAATATGGGATGGAGTTGAGCTGGCAAAGAGAGAAATATATATTCGAAGTATTAGACGAAAACTCTGCTCTAAGAAATAATGCTCAGCTTAACTTGTTTTACAATAATAAGTTTAACAGCAATATGGGCAAACTGGCAAGAATA
PROTEIN sequence
Length: 1570
MKKLFFFSILIFLYVAGKAQFSPLGNVTPDAVFDTLYDKDARKYSLRDLRIDTNQLYVGSPGSKVLASCPTGSGYFRLFFETGCGMDGNTTADIDKRKVLCQLFKDISTFMPAPTGTPLANGTAFVNVWVRNIANISNVPASTAGLALSFYPLPTGSAVTGIADNMVWTTVNSGYDGYTNFSSPLIAQGGGQSNNFYHMAIAFDFSLSTWHYTWSGSTLPTAAAGVIDLYSIALHEATHALGFASLIRSNGQSVLPQQYYSRYDLHLKNNAATQNLITNTGSCNLYSFGWNSSLTASTTLSPNAGSPNPNHTTCGSAIKYAYTGGGTQMVYTTNAFQQGSSLSHFEDECQVPATFTVTPSNDEYFVMSNSGGTTNNKRFLRPEERSVLCDLGYYVTNSYGSTTVTQSANTYTASACNGSQVVGINDGISSTGAYQYVTSQNTLINIPCTTAVGTMPAVLLNDQFASATLANKKLECVQDITNNTTVSFTATNITYTPPTGFIGTAVLRYVPYDNATGIRGNITYIYVFVRDPNCINLSSCDMVSNGNFESNGGCSIWSNVKECWQNLAGTCDRFGRGCTGIYNVGTSTFGSTPASDSHNGTPNDKFVGFGGEVGVECEAISTNLNTALAPSANYVLSFWAKNCNAATFSGSPMLIGFSSVPSQLLPLTISQNFNTQVPGASSLIPSQTVPFDNAWHYYSVPFTFTGTVNHNTLVVWCDIFPAAAGTKVYSWIDEISIVPAAVGPVLTVPPTVCLGSNISNLMTYVSPTGGVFSGTGVSLSGGIYSFNSTTAGLGTHLITYTYTSGACSYPSYANITVANSGCTLPGGNSNSIAAATTYTTTNTNFSLPTSPTSNPILISANVTIGNGTSTNTVTVNCPDVRIASGVKILVKANATLVIDGSWLHACAQCNGGMWQGIEVESGATLEVKNNTIIEDALYAVNALSGTPNLKISNAVFNKNDYGININSTASNLQASTTNIVKNCIFSCRTLAVPSTLAGFAGYFSALKSNMSGLSLSSYPITTTLAQVRSRYGMYLNALTYATAYKVGTTATTGNPELNFFDYLDYGIYVSGSNANIKNNTFQNCSGRNNSGLVTGIGVCGVNPSDPYSITIGNDYNSTTYPTTERNVFRNNLRGVDISNFIKNYVINNSFDNTFVDTWANFSYLYNTTGQYAIFIKPKITASTNDLKANKNVINNCSYGVYINRLTNFYDPTTFEVNNNAVTVSGGNHMAVGLFMEDAAGNSPTGTGILYFKGNTVIGADYFGILANNIYKGLQITSNNELSVTAANPSGFPGGSPRASIGLQYCNDAQVDKNLTVKATNFTTTANINNVNADLYGIFITGSPGSIVTCNQVQNTDKAIAFEGSCSASANRTTRYEQNNHYTTNFGYVLQNAGAIGTQGSATVCMDNVYGNTGTQAITIAQTFVISTSTANTGSKLYVRANTCSSVTVTQPCNNLGSGATPYSTTAFGINISSCVSNIDLCAAGGGEGGKLIGYSDSLISDSINASIAAILLNQLNDSTTEEQYGMELSWQREKYIFEVLDENSALRNNAQLNLFYNNKFNSNMGKLARI