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BSR_Ace_UAPBR_inlet_at_118294_2

Organism: BSR_Ace_UAPBR_inlet_at_Firmicutes_56_7

near complete RP 42 / 55 MC: 2 BSCG 44 / 51 MC: 3 ASCG 9 / 38 MC: 2
Location: 2471..6940

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
ATP-dependent helicase/nuclease subunit A {ECO:0000255|HAMAP-Rule:MF_01451}; EC=3.1.-.- {ECO:0000255|HAMAP-Rule:MF_01451};; EC=3.6.4.12 {ECO:0000255|HAMAP-Rule:MF_01451};; ATP-dependent helicase/nuclease AddA {ECO:0000255|HAMAP-Rule:MF_01451}; TaxID=292459 species="Bacteria; Firmicutes; Clostridia; Clostridiales; Symbiobacteriaceae; Symbiobacterium.;" source="Symbiobacterium thermophilum (strain T / IAM 14863).;" similarity UNIPROT
DB: UniProtKB
  • Identity: 39.3
  • Coverage: 1421.0
  • Bit_score: 844
  • Evalue 1.40e-241
ATP-dependent helicase/nuclease subunit A n=1 Tax=Symbiobacterium thermophilum (strain T / IAM 14863) RepID=ADDA_SYMTH similarity UNIREF
DB: UNIREF100
  • Identity: 39.3
  • Coverage: 1421.0
  • Bit_score: 844
  • Evalue 9.60e-242
ATP-dependent deoxyribonuclease subunit A similarity KEGG
DB: KEGG
  • Identity: 39.3
  • Coverage: 1421.0
  • Bit_score: 844
  • Evalue 2.70e-242

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Taxonomy

Symbiobacterium thermophilum → Symbiobacterium → Clostridiales → Clostridia → Firmicutes → Bacteria

Sequences

DNA sequence
Length: 4470
ATGGAGGTCCAAACCGTGGCTGAAACCCGATGGACTCCCATGCAACGGATGGCGATCGAACTCCGGGGTTGCGACATACTGGTGTCGGCGGCTGCCGGAGCAGGTAAGACGTCGGTTCTTGTGGAGAGGCTGATCCGCCGGATACTGGACCCGGATCATCCCCTGGATCTGGGGCGCCTTCTCGCCGTCACATTTACCGAGAAGGCCGCCGCCGAGATGAAACAGAGGATTCGCGCGTCGCTTAACAAGGCTCAGGAAGAGTCGCCAGGCGACGCCCGCGTTCAAAACCAAATCAAGATGTTGGAACTCGCCCAGATCTCCACCATACACGCTTTCTGCCTCTCAATAGCGCGAAAATACTTTTACAAGGCGGGTCTTGATCCCACATTCAGGGTTCTTGACGACAACGAGGCCGAGCTCTTGCGCCAAGACGCGCTGGCCGACCTCTTTGAGGAGATGTACGCCGACGAAGGCGGATTAGGCGATTCGTTCCGGGCCTTGGTAGACCGCTACGGCGGAAAAGGCGTGGACGAGGGTCTCCAGGATACCTTATTGCGACTGCATGATTTCGCCAGGACCCAGGCGTCGATGGATGAGTGGCTGGCAGGGGCGGTAAGTGTGCCGTTTGCGCCGCATGACCATGGCGCTTGCCCCGGGCCGAGCTCGATGCTGTCAGACGGTCGGAGCGACTTGCCTGACGGCCTTCACGCCGCTGCTGCTATCTGGCAAATGCCCTGGATGCAATATATTCTTGCGAAGGCGATAAAGGAAATTAAGCGCGCCCGCGGGTTCGCCGCCCAGGCTCTTGACTTGTGTCGTTTGCCCGGAGGTCCCGATGCCTACGAGAGCGCGATAGCCGGCGATATTGAGTTCTACGAGAGCGTCGTCGCCGTTTTGGAAGACCCGGGTCGGTTTGGCGGATACGAGGAGGCGGTCAGGCGAATCGGGACGTTCGAACACGGGCGCTTGGGCCGAGCACCCAAAGATTCGGACCCGGAAATGAAGGAACTGGCGAAAAAACTCCGGGATGAAGGCAAGTCGCTGCTGAAGAAGGTAGCCGGATATGCGTTCATGAGGCCGCCTGGGGAGCTTGAAAGGGAACTGGGCGAGACGGCGCCTTTCGTTGCAACGTTGGTTGGGCTGGTGCGCAGGTTGGATGTCGCTTACGCCAAGAAAAAGTCCGACCGCGCCGGGGTGGACTTCTCGGACTTGGAGCGTTATTGCCTGACAATTCTGGAACAGGATGATTTTCAGGTAGCATCTTTGGTCCGCGGCCAGTTTGACTGCGTTTTAATCGACGAGTATCAAGACACCAACCCGTTGCAGGAGCGTATCCTATCTCTGATCGCGTCCCAGGGTAAGCCCGGAAACCGGTTCATGGTGGGGGATCTAAAGCAGAGCATCTACCGCTTCAGGCTTGCCGAACCCCGCATCTTCCTCGAAAAGTTCGCGGCGTACTGTCCTGTCGCGGAGGGATCGGAACAGGCTGCCGAAAGCATCGACATCCGTTCTGCCGGAAATGGGCGAGCCGCCGGCGCTCGAATCGATCTGACCCACAATTTTCGCAGCCGAAAAGAAGTGTTGGATTCGGTCAACTACCTGTTTTCCGACTTCATGCGCCGAGAAGTAGCCGACATCGAGTACGGCGAGGGGCACGAGTTGCGGCTCGGCGCCTCGTACCCTCAGGCGGGCGACGATTCCTACCGCACCGAACTCCACTTGGTCGAGCGAAAGGACACGAGCGCAAGGGCGATGCCGGCGAACGGACAACAGTCGGTTTCGGGACAAGGCGCGGTCGATAGGTCGGCTCTGCCGGCCGGCGTGAATACGGTTGGAGGCGGGGAAGGGACCGGTGAAGGGACCGGGATGACAGGCGAAGGAATCGGGGTAACCGCCCAGGCCGATTTGGCTGAAGTTGATCCGGCGTCAGCCGGAGCGCAGCCCTCTGACCTGGAGGAATACGAAGCGCTGGAAAAGGAGGCACTTGTTGTCGCCGCCCGGATAGAGTCGATGGTTGACCCGGCCAGACCGCTGATGCTGTGGGACTCCGGCGCCAATTCCTATCGCCCTTGCTCATACAAGGATATCGCCGTGCTCATGAGATCCACCAAAGACAGGGCCAATGCCGTGATGGAGATATTGAACCGCTTCGACATCCCTTCATACGCCGACACCGGGTCGGGATACTTCCGGTCCCGGGAGGTGGAGGTGGCTTTATCGCTGCTCTCCGTGATCGACAACCCGAGGCAAGACATTCCGCTGGCGGCGGTGCTGCGGTCGCCAATCGTGGGGCTTTCGCCTGCCGACCTGGCGAGGATCCGCGCGGCCCATAAACAGGTGGAGTTTTACGATGCGGCGAGGGCATATGTGGACAAAGCCCGCGACCTAAAATCGGCTAATGTGCTGCCGGACGCCGCCGCTTGCCCGTCGTCAAGGATACCAATTGAGGAAGACGGTTCGGGGATTGCCGGAATTGGAGATGTTTCGCATCCGGCGATGCCGATGCCTTCTTTAGTGGAACAAGCGAGGATCGCCCGGATCCTGGCTAAGTTCTTCTCTGACCTGGAAAGATGGCGCACTCTGGCCAGAAGGCGCCCGTTGGCCGAGACGCTCTGGACCGTGCTTCGAGACACCGGATACCAGGACTATGTAGGGGGACTGCCGGGAGGTCCCCAGCGTCAGGCCAACTTGCGTGCTCTGTGCGACCGCGCGCGGGAGTTCGATTCCTTTGGCCGCCACGGTCTTTTCAGGTTTCTTAGGTTCATCGAGAAAATTCAAGAAAAGAAGGGCGATCTGGGCACTGCACGCGCGCTGGGCGAGCAAGAGGACGTGGTGCGGGTGATGTCGATCCATAAGGCCAAAGGACTTGAGTTCCCGGTCGTATTTGCCATCGACCTGGGCAAGCAGTTTAACCTTGACGATGCCCGCCACGATATCCTTTTTCACCGGGACCTGGGCATCGGCCCTCTTTACTGCGACTTGGAGAGCCGGGTCAAATACCCCACCGGCCTGCACCAGGCCATCTCGATGCGGATTAGGGACGAGAACCTGGCGGAAGAGATGCGGGTCTTATATGTAGCCTTAACCAGGGCTAAGGAAAAGTTGGTCATGGTGGGATCGGCAAGAGACCTGCCTTCGGCCGCCATGAGATGGGCGAGGGCCGATGCGGCTTCGGCCGCCACGTACCTTGACTGGATATGTCCCGCCCTCAAAAGGGACCCGGATTCTTCGCCGGTTGAAGTTAAGATCTGGGGGGGCGAAGAGGGAGCGCCGCTGCCTTCTCCGTTGGACGCAGGCACCCGGGCGCGAGATTTGACCTGGACCGACGCGCAGAACTTAAAACCTCCTAAGGTTTCGAATCCGGGGCTTCGGGCAGAGCTGGAGCGCAGGCTGAGATGGAAATACGAGTACGCGTCCCTCGCGACCACTTTCGCCAAATGGAGCGTGGGCGAGATTCGCCGCCGGCTGGAGGGTGAAGAAGAGGATGGGTGGAGGGCCGGCGAACTAGATGAGAGAACCAATGAAGTTGCTCGTAGCCCTGGGGCGTTGCGGAGAACACCAAAGGTTAGAGCTCACCCGGTTGATGGCGATGCGGGTCGATTACGTGCTATCGATAGGTCCGAGGCAGAACCGGCCTATTCGGCCGGATCAGAGAGCGGACTGCGCAACACGGATAGTTCAAGCCAAATTGGTGACCCCGGCGCCGGCGATAGAGGCGAGATGCATAACACGGATGCGCCACCGCTTAAGCCTTTGCGAGGCGCCGCCCGCGGGATCGCGGTTCACGCGCTGCTATCCAGGATGAGGTTAGATAAGGCGCGGGATTTCGACGGGGTGCTAGAGGAGCACGGGCGGCTTTTGGAGCAAGGTTTAGTCGAGTCTCCCGGCCTGGACGATCGGGACATAGAGATGATCGTAGATTTCTTCGCTGGTCCGATGGGGCAGTCGCTTCTATCCACCTCCGGTGTCGTAAGGCGCGAGTTGCCGTTTACCCTGAGGGTGCCGGCGGGGGCGTTTGCGGGAATTCACAAGGCCCAAGCAGTTCAGGCAGGCGAGAAAGCTTTGGTTGCGGAGCGTGCAGGCGATACGGCATCCGTTGTCGCAAGAGCGGGCGGGGCATCGATTTGTAGCAGTTCGCAGGCACCTGATTTGCTTGCCATCGGGAGTGGATCAGGAAGCGTAGCCGCAAGCGACGGTCTCGAAGATTTCGTCATTGTACAAGGCGTAATCGATGTGCTGGTCGACGAAGGCGACGGCTTGGCGATCCTTGACTTCAAGACCGACGATGTTTCCGAAGAAGCCCTGGAGGCCAGGTTCAGGTCATATCTCCCGCAGATAGCCATGTACGGGATGGCGGCCGAGAAGATTTTGAAGAAGCCGGTGAAGCGCGCGTCCATAGTCTTCCTATCGAAGGGACGGGTTTTTGATGCCGATTGGCGCGGGTATCTCCGATCGGCAGGGTTGGAGTGA
PROTEIN sequence
Length: 1490
MEVQTVAETRWTPMQRMAIELRGCDILVSAAAGAGKTSVLVERLIRRILDPDHPLDLGRLLAVTFTEKAAAEMKQRIRASLNKAQEESPGDARVQNQIKMLELAQISTIHAFCLSIARKYFYKAGLDPTFRVLDDNEAELLRQDALADLFEEMYADEGGLGDSFRALVDRYGGKGVDEGLQDTLLRLHDFARTQASMDEWLAGAVSVPFAPHDHGACPGPSSMLSDGRSDLPDGLHAAAAIWQMPWMQYILAKAIKEIKRARGFAAQALDLCRLPGGPDAYESAIAGDIEFYESVVAVLEDPGRFGGYEEAVRRIGTFEHGRLGRAPKDSDPEMKELAKKLRDEGKSLLKKVAGYAFMRPPGELERELGETAPFVATLVGLVRRLDVAYAKKKSDRAGVDFSDLERYCLTILEQDDFQVASLVRGQFDCVLIDEYQDTNPLQERILSLIASQGKPGNRFMVGDLKQSIYRFRLAEPRIFLEKFAAYCPVAEGSEQAAESIDIRSAGNGRAAGARIDLTHNFRSRKEVLDSVNYLFSDFMRREVADIEYGEGHELRLGASYPQAGDDSYRTELHLVERKDTSARAMPANGQQSVSGQGAVDRSALPAGVNTVGGGEGTGEGTGMTGEGIGVTAQADLAEVDPASAGAQPSDLEEYEALEKEALVVAARIESMVDPARPLMLWDSGANSYRPCSYKDIAVLMRSTKDRANAVMEILNRFDIPSYADTGSGYFRSREVEVALSLLSVIDNPRQDIPLAAVLRSPIVGLSPADLARIRAAHKQVEFYDAARAYVDKARDLKSANVLPDAAACPSSRIPIEEDGSGIAGIGDVSHPAMPMPSLVEQARIARILAKFFSDLERWRTLARRRPLAETLWTVLRDTGYQDYVGGLPGGPQRQANLRALCDRAREFDSFGRHGLFRFLRFIEKIQEKKGDLGTARALGEQEDVVRVMSIHKAKGLEFPVVFAIDLGKQFNLDDARHDILFHRDLGIGPLYCDLESRVKYPTGLHQAISMRIRDENLAEEMRVLYVALTRAKEKLVMVGSARDLPSAAMRWARADAASAATYLDWICPALKRDPDSSPVEVKIWGGEEGAPLPSPLDAGTRARDLTWTDAQNLKPPKVSNPGLRAELERRLRWKYEYASLATTFAKWSVGEIRRRLEGEEEDGWRAGELDERTNEVARSPGALRRTPKVRAHPVDGDAGRLRAIDRSEAEPAYSAGSESGLRNTDSSSQIGDPGAGDRGEMHNTDAPPLKPLRGAARGIAVHALLSRMRLDKARDFDGVLEEHGRLLEQGLVESPGLDDRDIEMIVDFFAGPMGQSLLSTSGVVRRELPFTLRVPAGAFAGIHKAQAVQAGEKALVAERAGDTASVVARAGGASICSSSQAPDLLAIGSGSGSVAASDGLEDFVIVQGVIDVLVDEGDGLAILDFKTDDVSEEALEARFRSYLPQIAMYGMAAEKILKKPVKRASIVFLSKGRVFDADWRGYLRSAGLE*