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H3-18-all-fractions_k255_2646070_2

Organism: H3-18-all-fractions_metab_8

near complete RP 47 / 55 MC: 3 BSCG 49 / 51 MC: 2 ASCG 15 / 38
Location: 1007..5647

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
putative ATP-dependent helicase (EC:3.6.1.-) id=14628638 bin=bin8_Chloro species=Ilumatobacter coccineus genus=Ilumatobacter taxon_order=Acidimicrobiales taxon_class=Actinobacteria phylum=Actinobacteria tax=bin8_Chloro organism_group=Chloroflexi similarity UNIREF
DB: UNIREF100
  • Identity: 42.1
  • Coverage: 1640.0
  • Bit_score: 1011
  • Evalue 4.70e-292
DEAD/H associated domain protein {ECO:0000313|EMBL:AHG88940.1}; TaxID=861299 species="Bacteria; Gemmatimonadetes.;" source="Gemmatimonadetes bacterium KBS708.;" similarity UNIPROT
DB: UniProtKB
  • Identity: 80.9
  • Coverage: 972.0
  • Bit_score: 1527
  • Evalue 0.0
DEAD/H associated domain protein similarity KEGG
DB: KEGG
  • Identity: 80.9
  • Coverage: 972.0
  • Bit_score: 1527
  • Evalue 0.0

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Taxonomy

Gemmatimonadetes bacterium KBS708 → Gemmatimonadetes → Gemmatimonadetes → Bacteria

Sequences

DNA sequence
Length: 4641
ATGCCGAGCGCCGCCGTCGATCCCCTCGCCCCCTTCCACCCCGTCGTCCGCCAGTGGTTCGCCGAGACGCTCGGGGCACCCTCGGCGCCGCAGCGCGCCGGCTGGCCCGCGATCGCCGCCGGCCACGACACGCTCATCCTCGCCCCCACGGGCACGGGGAAGACGCTGGCCGCCTTCCTCTGGGAGCTGAACGCGCTGATCACCGACGGCCTGGAGCACGGGCGCCTCGCCAACGCGGTGCACCTGCTCTACGTCTCCCCGCTCAAGGCGCTCAACAACGACGTCCAGCGCAACCTCGAGCGCCCGCTCGCGGAGCTGGCCGAGCGCTTCCAGCGCGCCGGCGAGCCCTTTCCGGAGATCCGCGTCGCCGTGCGCACGGGCGACACCCCCGCCTCGGCGCGGGCGCGGATGCTGCGCACGACGCCGCACGTCCTCATCACGACCCCCGAATCGCTCCACATCCTCCTCACCAGCCGGCGCGGGCGCACGTTGTTCAGCCACCTGCGCGCGGTGATCGTGGACGAGATCCACGCCGTGGCCGGCACGAAGCGCGGCGCGCACCTGGCGCTGACGTTGGAGCGCCTGGCGCGGCTCGCCCCCGACGCGCCGCAGCGCATCGGCCTCTCCGCCACGCAGAAGCCGCTCGACGAGGTCGCCCGCTTCCTCTCCGGATGCGATTCCCCAGCGGAGGATGGAACACCGCGCTTCCGCCCGGTGGAGATCGTGGACTGCGGGCTCGTGAAGCGGATGGAGACGAGCGTCGTGTCGCCCGTGGACGACCTCGCGCACGTGGACGGGACGATCTGGACGTCGGTCGTGCCGCTCGTGCTGCGGCAGATCCGCTCGGCGCGGACGACGCTCGTCTTCGTCAACAACCGCGCGCAGGCCGAGCGGATGGCGGCGCGCGTCAACGCCCTCGCCGGCGAGGAGGTCGCGCTCCCGTACCACGGGTCGCTGTCGCGCGAGCGCCGCCTGCTGCTCGAGGGGCGGCTCAAGGCCGGCGAGCTGCGGGCGCTCGTCACCACGAGCTCCCTCGAGCTCGGGATCGACGTCGGGTCGGTGGACCTCGTCGTCCAGCTCCAGAGCCCCAAGCGCGTGGCGGCCGCGCTGCAGCGCGTGGGACGCGCCGGCCACTCGCTGGAGGCGACGAGCCGCGGCGTCTTCGTGCCGACGTTCCGCGACGACGCGCTCGAGCAGCTCGCCGTGATCGACGGGATGCGCGCCGGGGACGTGGAGCCGACGCGCGTGGTGCAGAACGCGCTCGACGTGCTGGCGCAGGTGATCGTCGCCGCGGTCGCGTCGGACGAGCCGGAGTGGACGAGCGCCGAGCTCTTCGACTTCGTGCGCCGCGCCTACCCGTACCACGCGCTCACGCGGGCGGCGTTCGACGAGACCATCGCCATGCTCGCCGGGAAGTACCCCTCCGACGTCGCCGCCGAGCTGGACGCGCGCGTCTTCTGGGACCGCACGACCGACCGCCTCACGCCGGCGCGCTCGGCGCGCCTCGTGGCGACGACCTCCGGCGGCACGATCCCCGACCGCGGGCTCTACACGGTGAACCTGCCGGACAGGACGCGGCTCGGGGAGCTGGACGAGGAGTTCGTGCACGAGTCGCGCGTCGGCGACGCGTTCCAGCTCGGCTCCTCGACCTGGCGCATTCGCTCGATCGAGCACGACCGCGTGGTGGTGGTGCCGGCGCCCGGGGCGCCGGCGCGGATGCCGTTCTGGCACGGCGAGTTCATGGCGCGCTCCGCCCACCTCACGCCGCGCGTCGGCGAGCTGCGGCGCGTGCTCGACGCGGCGCGCACGCGCGACGACCTGCGCGCGATCGAGGAGCGCTACCGGGCCGACGAGCCCACCGCGCGCTCGCTCGCCGAGTACGTGCAGTCGCAGCGCGCGATCACCGGCGCCGTCCCCGACGAGCGGCACCTCGTGCTCGAGCACTTCCGCGACGAGGTGGGGTCGGTGCGGCTGGTGCTGCACGCGCCCTTCGGCGGCCGGGTGAACGCGCCCTGGGGGATGGCGCTCGGGCGGCGGATGCGCGAGCGGCTGGGCGTGGACGTGCAGGTGCAGACGACCGACGACGGCCTCATGCTGCGGCTCCCCGATCTGGGCGCGGCGCCGCCGGTGGACGTGGTCCGCACGCTCACGGCCGAGGAGGCGGAGCGGCTCGTGCTCGAGGAGGTCGGCGAGTCGTCGCTCTTCGGCGCCCGCTTCCGCATGAACGCCGCGCGCGCGCTCCTGCTGCCGCGCGGCAACCCGCGCCGCCGGATGCCGCTCTGGCTGCAGCGGCTCAAGGCCGCCGACCTGCTCCAGGCGGTGCGCGAGTTCCCGTCGTTCCCCATCCTCGTGGAGACGTACCGCGACGTGCTGCAGGACGCCTTCGACATGGCGGCGCTGCGCGACGTGCTCGCGCGCCTCGCCTCGGGGGCGATCGCCCTGCGCGTCGTCCAGACGGAGATCCCGTCCCCCTTCGCGGCGTCGCTCCAGTTCGGCTTCGTGATCGACTGGATGTACGGTGACGACACGCCGCGCGCCGAGCAGCGGGCCGCGCTGCTCTCGCTCGACCGCGCGCTGCTCGACGAGCTGATGGGGGGCGATGGCGCCGACGACGCCACGCTCGCGGTGCTCGACGCGGAGGTGCTGGCGCGCCGCCGCGGCACCGCGCCCGGCCGCCAGGCGCGCGACGCCGACGAGCTGGCGCTCCTCGTGGATCGCGCCGGCGACCTGACGCGCGAGGAGCTCGCCGCGCGCGTCGCCCCGCCCGGCGAGTGGCGGCGCGGCGACCCGCTCGCCGACCTGCTCGCGAGCGGGCGCCTCGTGGCGGCCGACCTCCCGACGGCGGGCGGCGCCGAGCGCCGCTATCTCCTCGCCGACGCGTACGCCCGCTACGCCGCCGCGTTCGGCGCGGAGCGATTGGCGACGCTCTACGCCGGCGACTCCCGCGACCCACGCCCGGCGGCAGATGTCATCCCCGCCCCGCTGCTCGCGCCCGCGCTCACCCGGCGCGCGGCGCGGCGCGAGCTGCTCGCCCGCTTCGTCGCCCTCGCCGGCCCGGTCTCGGTGGAGGACGTGCGCGCGCGCTACGACTTCGGCGCCCGGTGGGTGGAGCGGTGGCTGGAGGAGCGGGAGCGCGCGGGGGTGCTGGTGCGCGGGCAGTTCGGCGGCGAGCGAGGGGTCGCGCGCTGGATCTCGCGCCGCCTCCTCGAGCAGGCGCGCCGCCGCGAGCTGGCGCAGGCGCGCCGGCAGGTGGAGGCGGTGCCGATCGCGGCGTTCGCGCGCTTCCTCGAGCGCTGGCAGCACCTCGCGCCGGACACCCGCCTCGCGGGCGCGGAGGGCGCGGCGACGGCGCTCGCCCAGCTCTACGGACTCGCGCGTCCGGCGGAGGGGTGGGAGCGCGACTACCTGCCGGCGCGCGTCGAGTCCTACGAGCCTGGCGCCCTCGGCCGGCTTGCGGCCTCGGGGTCGCTCGTCTGGGCGGCGGAGCCGCGCGAGACGAGACCGGGCGCCTCGGCGGGCGCGGCGGCCACAGGGATCGGGCGCGTCCGCTTCTTCGAGCGCGGCACGGGCCGCCTCTGGCTCGGCGCCCCGCCCGACGAGGGCGCGCTGGGTGATGCCGCCCGTTCCGTGCTCGGCGCGCTCCGCGCGCAGGGCGCCTCCTTCACCGCCGAGCTCGCCGCGGCCTCGGGGCTCGGCGCGCAACGGCTGCGCGACGCGCTCCGCGAGCTCGTCGCCGCCGGGCTCGTGACGAACGACACGGTGGAGGCGCTGCGCGACGTGGTTCGTTGGAAGCCCATCTTTCCCGCGCGTCGGCGCGACGAGCCCGACCCCACGCGCTGGCTCCCCGAGAGCTTCACCCCGTCGCCGAACCGGCCGGTCGTGCAGCGGCGCATCAACCCGCGCCGCCTCGCCAGGTGGACGCGCCCCGACCGCGAGCCGGAGATCGCGGCGTGGGGCGGGCGCTGGTCGCTCGTCCACGCGCCGGGCACGCTCGGCCCCGCGGCGGACGAGCAGCAGCTCGCCGAGCGCGTGGCGCGGCAGTGGCTCGCGCGCTACGGCGTCGTGTCGCGCGACTGGTGGCGGCGCGAGCGGCCGGCCGTGGGGTGGCGCGCGATCTACCACGAGCTCAAGCGGCTCGAGTTCCGCGGCGAGGTGCGGCGCGGCTACTTCGTCGCCGGGCTCGCCGGCGCGCAGTTCGCGCTCCCCGAGGCGGTCGAGCTGCTGCGCGCGCCGGCGGACGACGCGGACGACGCCCCCCCGGTCGTGCTCTCCACCTCCGACCCGGCGAACGTCCACGCGCTCCCGCCGGCGCCGGGCGCGGAGCGCGACCCGCTCGCGCGGCCGCGCGGCGCCGGCGCGCTGCTCGTCACCCGCGGCGGCCGGATCGTCATCGCCGCCGAGGGGCACGGGGCGCGTATCCGCGTCAGCGACGGCGCGACGCCGGCCGAGGTGCGCGACGCGGCGCGCGCGCTCGCCGAGCGGCTGGTGGCGCGCCGCGCCTCGGGCGGCCGGCGGCACGACGTGACGATCGAGACGATCGACGGCGAGCGGGCGGCGGCGTCGCCCCACGCGGAGGCGCTGCGCGCGGCAGGGTTCCGGAGCACGGGAAGCGGGCTCCGCTTCTACGCCGGCGTTCGCTGA
PROTEIN sequence
Length: 1547
MPSAAVDPLAPFHPVVRQWFAETLGAPSAPQRAGWPAIAAGHDTLILAPTGTGKTLAAFLWELNALITDGLEHGRLANAVHLLYVSPLKALNNDVQRNLERPLAELAERFQRAGEPFPEIRVAVRTGDTPASARARMLRTTPHVLITTPESLHILLTSRRGRTLFSHLRAVIVDEIHAVAGTKRGAHLALTLERLARLAPDAPQRIGLSATQKPLDEVARFLSGCDSPAEDGTPRFRPVEIVDCGLVKRMETSVVSPVDDLAHVDGTIWTSVVPLVLRQIRSARTTLVFVNNRAQAERMAARVNALAGEEVALPYHGSLSRERRLLLEGRLKAGELRALVTTSSLELGIDVGSVDLVVQLQSPKRVAAALQRVGRAGHSLEATSRGVFVPTFRDDALEQLAVIDGMRAGDVEPTRVVQNALDVLAQVIVAAVASDEPEWTSAELFDFVRRAYPYHALTRAAFDETIAMLAGKYPSDVAAELDARVFWDRTTDRLTPARSARLVATTSGGTIPDRGLYTVNLPDRTRLGELDEEFVHESRVGDAFQLGSSTWRIRSIEHDRVVVVPAPGAPARMPFWHGEFMARSAHLTPRVGELRRVLDAARTRDDLRAIEERYRADEPTARSLAEYVQSQRAITGAVPDERHLVLEHFRDEVGSVRLVLHAPFGGRVNAPWGMALGRRMRERLGVDVQVQTTDDGLMLRLPDLGAAPPVDVVRTLTAEEAERLVLEEVGESSLFGARFRMNAARALLLPRGNPRRRMPLWLQRLKAADLLQAVREFPSFPILVETYRDVLQDAFDMAALRDVLARLASGAIALRVVQTEIPSPFAASLQFGFVIDWMYGDDTPRAEQRAALLSLDRALLDELMGGDGADDATLAVLDAEVLARRRGTAPGRQARDADELALLVDRAGDLTREELAARVAPPGEWRRGDPLADLLASGRLVAADLPTAGGAERRYLLADAYARYAAAFGAERLATLYAGDSRDPRPAADVIPAPLLAPALTRRAARRELLARFVALAGPVSVEDVRARYDFGARWVERWLEERERAGVLVRGQFGGERGVARWISRRLLEQARRRELAQARRQVEAVPIAAFARFLERWQHLAPDTRLAGAEGAATALAQLYGLARPAEGWERDYLPARVESYEPGALGRLAASGSLVWAAEPRETRPGASAGAAATGIGRVRFFERGTGRLWLGAPPDEGALGDAARSVLGALRAQGASFTAELAAASGLGAQRLRDALRELVAAGLVTNDTVEALRDVVRWKPIFPARRRDEPDPTRWLPESFTPSPNRPVVQRRINPRRLARWTRPDREPEIAAWGGRWSLVHAPGTLGPAADEQQLAERVARQWLARYGVVSRDWWRRERPAVGWRAIYHELKRLEFRGEVRRGYFVAGLAGAQFALPEAVELLRAPADDADDAPPVVLSTSDPANVHALPPAPGAERDPLARPRGAGALLVTRGGRIVIAAEGHGARIRVSDGATPAEVRDAARALAERLVARRASGGRRHDVTIETIDGERAAASPHAEALRAAGFRSTGSGLRFYAGVR*