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SCN18_30_10_14_R2_B_scaffold_7615_1

Organism: SCN18_30_10_14_R2_B_Bacteria_71_11

near complete RP 46 / 55 MC: 7 BSCG 45 / 51 MC: 4 ASCG 12 / 38 MC: 1
Location: comp(1..5109)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Marine sediment metagenome DNA, contig: S01H1_S03621 {ECO:0000313|EMBL:GAF93987.1}; Flags: Fragment;; TaxID=412755 species="unclassified sequences; metagenomes; ecological metagenomes.;" source="marine sediment metagenome.;" similarity UNIPROT
DB: UniProtKB
  • Identity: 36.7
  • Coverage: 139.0
  • Bit_score: 66
  • Evalue 2.60e-07

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Taxonomy

Pseudonocardia dioxanivorans_SCN_Pseudonocardia_26x → Pseudonocardia → Pseudonocardiales → Actinobacteria → Actinobacteria → Bacteria

Sequences

DNA sequence
Length: 5109
CCCGTGGCGACCGGCCCGGCCCCGGCTGACGACGGCCGGTGGCGGTCGGCCTACCAGGCCGCGTACCGCGACGCCCGCCGCGGCGGGGCGGACGCCTACTCGGCGCGCGCGTCGGCCGTGATGGCCCTGGACGCCAGCGGGTACGGCGCCTGGGCCGTGGCCGGGTTCCAGTCCTTCGGCTCGCGCACCAACGACCGGCGCCTCCAGCAGGCGAGCATCGAGGCCGAGCGGGCCGCCGCACGCGACCCGGGCGTCTTCGCGCGCCCGTCGTACCCCCTGGCCATCCGCTATAGCGGCACCACCCGACCGGTCCAGGCGGGCACGTTCGGGTTCGCCCCCGAGCAGTCCTACGGGCCGCCGGTGGACACGAACGGCGTGGCCCGGGCGGCCGAGTCCCAGGCCATGCTGGCCCGGCTGGGGATGCTCGCGCGCAACCCGACGACCGGCGCCTTCCCGCTTTACAACCGCACCGACATCTCGCCGACCGCGGCCCCGGGCGTCTACGGCTTCGCCGCCCCGCAGGCGGCCGGGGACCGCATCCCGCTGGCGTCGACGGGCGTCTCCTCGAACACCTACGCGGTCGACGCGAGGAAGCGCTACCGGGCCGAGTCCGTCGGGCTCGTCCGCAACGGGTTCGTCGGGCTGAACACCTCGGGTGCGGCCGACCTGGCCGACGCCCGGGCCTACGCCGGCGTGCGCGCCCTCGGCGGCCCCAACCTCGTCAGCAACCAGACCGCCCTGGCCACCCAGCAGGCGGAACTCGCCCGGCTGGAGAAGGAGCTGGCCCGGGCCATCGACCGCCAGCTCCGCGCCCTCACCCCGGCCATCACCGCGACGGAAGCGCGGCGGAAGGCCGAGGAGCAGGCCCGGCTCGCCCTCGAACAGAACGCGGCCGTCCTGCGCAACTCCAAGGGCCAGGTCGTCGGCACGGTCGCCAACGCCCAGCAGCTCCAGGCCGCGGGCCTGGCCCCGGGCGGGGCGGGCTGGTTCTCGGGCGCGACCGTCCGGCAGCGGGCGGGGTCGTTCTTCGGCAACCTCGGCCGGTCCTTCACGCCCGCGGGCGGGATGGCGGGCACCTACGGCCTGATGTTCGGCGCGCCCGTGCTCGCGGAACAGATTGGCCCGTCGCAGCAGCGCATCCAGGCGGCGGCGGTGACCGGCAACACGACCGGGACGACGGCCCAGGGGGCCGCGGGGACGGCCCTTACGATGGCCGCGATGGGCGCGGGCGTGGGCATGGTGTTCGGGCCGTGGGGGGCCGCCATCGGCGCGGCCGCCGGCGGGCTCGTCGGCCTCGCCCAGGGTTTCTCGCGGACCTCGAAGGAGATTCGGGACGCCAGGGTCGGGCAGGCGGTGCAGCACCTCGGGGACATGCTGACCGCGGCGGCCAACAACGTCCGCGGCGGCATCGGCACGCTCAGTCCCGACAACCTGCGGCGCCAGCTCGGCGCGCTGAACGGCGAGGCCGGCGAGCGGGCCCGGGAGGTGACGAACCGGAGCTGGTGGAACCCGCTGCGGGGCCGGGCCCTGTCGGCCATGACGGCCGAGGAACAGGCCGCGGTCCGGACCAAGGAGAACCGGGCGGTGTTCGGCGGGCAGGCCGGGGCGATGGTCGCCCTGCTCAGCCGCGAGGCCGAGGACCTGGCGCGGAAGAACCCGCGGGCGCGGGCCGCCGACCTGGGCCGCCGGCTCGGGGCCGACCCGGCCGCCGGGCAGCTCGTGACCGCCGTCGCGGCCACCCGCGGGGTGCCGGTCGACCAGGTACTCCGGGAGTTCACCGAGTCCGTCCGGGTCGCGCAGCGGCGCATCCGGGTCGAGGAGGACCTGCGGCGGGGCCGGGTCGCGGCCGAGCGGTCGGCGGGGGCGATGAGCCGGCTGGCCGACGCCGTGTCCAACGCCGCGAACAGTGTGGCGCGGTTCGAGACCTCGATGACCGTGCTCGGGTCGGTGTTCTCCGGCTCGGGCGGGACCGGGCGGGTGACGCCGGTCGGGGCCGGGTTCGCGGCCCTCGGGGCCGGGACCGGGGCCGAGTTCCGGCGGTCGGCGGGCGTGCTGGGGGAGGCCCTCGGGGCGGACGGGGGGCTGTTCCTGCGCCGGTCCGAGGCGGCCGACCAGCTCAGCCGGGCGCTGCCCTCGGTCCTCGCCACGCTCGGCAACACCCCGGTCGGCCCGGCCGGGCTCTCCGGCAAGGGGGTGCGCGACCTTCTCAAGGACCAACTCCTGCCGGGGCTGACCGAGGACCAGCGGAAGGCGGCCCTGAAGGACAACCCGCCGCTCCACGACGCCATCGAATCGGCCGTCGCCGGGGTGCTCCGCGTCCAGGAGGAGTCCAAGGACAGCGGCGGCCTCGCGCGCCGGCTCCAGGACGACGCCGGGCGGGTCGCCAACGAGGTGGCCGAGGCGTTCGCCGGGCCGCTGAAGGAGATGGGCCAGCGGATGGCCCGCGACATCGAGGAGAACGCCAACAAGTTCGTGGACGGCCTCGCGTCCGCGCGGCAGATGCTCGTCACCGCGGGCGAGTCGCTCGACCGGGCCGCCGAGCTGCGCCTGGGCGCCGCCCGGGCCGCCGCCGACGTCACCGCCGACCGCACCGGCCGGTCCGCGACCGACCTGCTCTCCCTGCGCGACCTCCAGGCCCCGTTCATCGAGCGGCAGCAGCGGCTCACCGGGCTGGGGGCGGACGCCGAGAACCCGGCCGCCATCGCCGCCCGCCTCCGCCGGGTGACCGGGGACATCGTCGCCGCGACCTCGGCCCGCGACAACGCCGTGGGCAACCGGGACCGGTTCTCCGCCGCCGCCGGGAACCTGGACCGGCTCGTCGGGGTGTCGAACAACCTCCAGGCCGCCCTGCGGAACCTCGCCAACGCGAGCGAGCGGGCGGCGGGCCTCCAGGAGAAGCTGAACGCGGCGACGCTGAACCGGGACAGCCGGCTCGGCTACGTCGAAAAGTACACGATGTCCTCGCCCGAGGAGCAGGCCCGCATGCAGCGGGGCCAGCAGCTCGTCATCGGGCTGGACCGCGGGCGGGCGAACTTCAACGACCTGGCGCCGAGCGAGCAGCAGCTCGCCCTCCAGTCGCTCAACGACTTCGGGCAGGCCCGTCTGGCCAGCGGGCGGACGGCCGAGGGGCTCATGCGGCAGCTCCTCGGGTCCGTCCCCGGGGCGCTGGACGCCGGCCAGGAGAACGAGCGGCGGGGGCTCCAGGACCAGCTTGTCGGCGTGTTCGCCACGGCCGAGCAGGCGCAGCGCGGGCTGGCGGCCTTCCAGCAGGACACCTACACGCGGTTCATCGCCGACCTGAAGTCCCTGCACGAGCAGTTCTTCGCCCGCCTCGCCGTGAACCTCGCCGGCGAACAGCTCCGCTCCGCGCAGAACTCCCTGGCCACGGCCTCGGTCGACCGGGCGGGCCAGCAGCAGGAACTCCTCCAGCGTGACGCCCTGGTCCGCCTCGGGGTGCGCGACCAGGCGGGCCTGACCGCCCTGCGTGGCGGCCAGGCCGACGTCGAGGCGTACTTTGCGGCCGACGCCCGGTTCCGGGCCCTGGGGACCACCCCGCCCGTGGCGTCCGACACCCGGGGCGCGCTGGGCAGCAACCTGCGGGAGGTCTCCGACCAGCTCCGCGGCGGGCTGTTCAGCGCCCCGAAGACCGACAAGCTCGAAGAGGTCCTGCGGACGCGGGGGCTCGACCAGCTCTCGCCCGAGGGCCGGGCCGAGGCGCTGCGGGCCGTCACCGAGCGGATGCGCCGGTACGGGGACAGCCTGGAGGGCCGGGGCGCGTGGGCGACCCTGACGCCGACCCAGCAGCTCAACATCCTGGACAACGCGGTCCGGAACGCGATGGGGCGGGGCCAGTGGGTCACCCAGGGCCAGGCGATGGACGAGCGGGCCCGCGCCGCTCGGAACCTCGAAGGCCGCGGCGTGGACGTCCGGGCCCTCCAGGGCCTGAGCGCCGCCGACCGGTCGGCCGTCCGCTCGTCGCTGACCGGGACGCTGAACCTCGACACCCTGGACGCCCGGGTGAAGGACACGACCGACGCCATCACCCGGTTCCGCGACCAGGTGCAGCGGGCCGAGGAGGCGCTGCGGCGGGCGACGGGGAACGAGACGGGTGGGAGCGGGGCGCTGGCGGGCGCGGTCGGGCCGGCCGGCGTGCTGCGGCGGGCGGACGGCGGGTTCACCCCGCGCGGCACCGACACCGTGCCGGCGATGCTGACGCCCGGCGAGTTCGTGATTAACCGGGCGGCCACGCAGGCCAACCTGCCGCTCCTCCGCGCCATCAACGCGGGCAAGGGGGCGGTGCAGTACCACCAGGAGGGCGGGTCCATTCGGCGGCCGTCGGCCCCGACGGTCGGGCAGGTGGCGGATGCGTACCTGTGGTCGGTCAACAAGATTAACCAGGGGCTGAGCTGGCTCGGGTTCGCCAGCGGCGGGGTCGTCCCCAGCTACCTGGCCGGGGGCGGCCTGGCCGAGCAGGTCGACCGCGCCCGGCTCGCGGCCAGCCTGGCCGAGAACAGCCGCGGGGCCGAGCGGGGGCCGCTGGTCGGCGGCGGTGGCGGGGTTATCCCGGCCCTCGACGCCGGTCAGGCGAGCTACCGGGCGTACCTGCGGCGGCGCGAGGCGGCCCTCGCCCGGCGCCTGAACCCGGGTGCCGGACCGACGTCGAAGGTGGTGGCGATGACGCCGGCGGAGGCGCTGGCGGCGAACCGCGCGCTGAACACCGCGAACATGGGCTTCTCCCAGGCGCTGGCCCGGTCGGGGATGGACGACGGCCAGGTGCAGGCGGGCCTCGGCTCCCTTGCACAACGCCGGGACTTCGAGAAACACCTCTTCCTGGACCGGTTCGGGGCGTCCACCGCGGCGATGCGGATGCGCGACACCCAGGGGTGGGCGGCGGGCGCCGGCGTGCGCCGGCAGAACGCGGCCGCCCAGCGGCGGGCCGAGGGGGCGGCCATGCGGTGGCTGGGGTTCGGGCCTCGCCCGACCGCCCGGTACTCGCTGGCGGACCGGTTCGTGAGCCCGCTCGGGGACCGCGCGAACAGCTCGTTCAACGTGGGCCGGTTTGCGGACGGCGGGTTCGTCGGGGGCAGCGGCACCGGCGACACCATTCCG
PROTEIN sequence
Length: 1703
PVATGPAPADDGRWRSAYQAAYRDARRGGADAYSARASAVMALDASGYGAWAVAGFQSFGSRTNDRRLQQASIEAERAAARDPGVFARPSYPLAIRYSGTTRPVQAGTFGFAPEQSYGPPVDTNGVARAAESQAMLARLGMLARNPTTGAFPLYNRTDISPTAAPGVYGFAAPQAAGDRIPLASTGVSSNTYAVDARKRYRAESVGLVRNGFVGLNTSGAADLADARAYAGVRALGGPNLVSNQTALATQQAELARLEKELARAIDRQLRALTPAITATEARRKAEEQARLALEQNAAVLRNSKGQVVGTVANAQQLQAAGLAPGGAGWFSGATVRQRAGSFFGNLGRSFTPAGGMAGTYGLMFGAPVLAEQIGPSQQRIQAAAVTGNTTGTTAQGAAGTALTMAAMGAGVGMVFGPWGAAIGAAAGGLVGLAQGFSRTSKEIRDARVGQAVQHLGDMLTAAANNVRGGIGTLSPDNLRRQLGALNGEAGERAREVTNRSWWNPLRGRALSAMTAEEQAAVRTKENRAVFGGQAGAMVALLSREAEDLARKNPRARAADLGRRLGADPAAGQLVTAVAATRGVPVDQVLREFTESVRVAQRRIRVEEDLRRGRVAAERSAGAMSRLADAVSNAANSVARFETSMTVLGSVFSGSGGTGRVTPVGAGFAALGAGTGAEFRRSAGVLGEALGADGGLFLRRSEAADQLSRALPSVLATLGNTPVGPAGLSGKGVRDLLKDQLLPGLTEDQRKAALKDNPPLHDAIESAVAGVLRVQEESKDSGGLARRLQDDAGRVANEVAEAFAGPLKEMGQRMARDIEENANKFVDGLASARQMLVTAGESLDRAAELRLGAARAAADVTADRTGRSATDLLSLRDLQAPFIERQQRLTGLGADAENPAAIAARLRRVTGDIVAATSARDNAVGNRDRFSAAAGNLDRLVGVSNNLQAALRNLANASERAAGLQEKLNAATLNRDSRLGYVEKYTMSSPEEQARMQRGQQLVIGLDRGRANFNDLAPSEQQLALQSLNDFGQARLASGRTAEGLMRQLLGSVPGALDAGQENERRGLQDQLVGVFATAEQAQRGLAAFQQDTYTRFIADLKSLHEQFFARLAVNLAGEQLRSAQNSLATASVDRAGQQQELLQRDALVRLGVRDQAGLTALRGGQADVEAYFAADARFRALGTTPPVASDTRGALGSNLREVSDQLRGGLFSAPKTDKLEEVLRTRGLDQLSPEGRAEALRAVTERMRRYGDSLEGRGAWATLTPTQQLNILDNAVRNAMGRGQWVTQGQAMDERARAARNLEGRGVDVRALQGLSAADRSAVRSSLTGTLNLDTLDARVKDTTDAITRFRDQVQRAEEALRRATGNETGGSGALAGAVGPAGVLRRADGGFTPRGTDTVPAMLTPGEFVINRAATQANLPLLRAINAGKGAVQYHQEGGSIRRPSAPTVGQVADAYLWSVNKINQGLSWLGFASGGVVPSYLAGGGLAEQVDRARLAASLAENSRGAERGPLVGGGGGVIPALDAGQASYRAYLRRREAALARRLNPGAGPTSKVVAMTPAEALAANRALNTANMGFSQALARSGMDDGQVQAGLGSLAQRRDFEKHLFLDRFGASTAAMRMRDTQGWAAGAGVRRQNAAAQRRAEGAAMRWLGFGPRPTARYSLADRFVSPLGDRANSSFNVGRFADGGFVGGSGTGDTIP