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rifcsphigho2_01_scaffold_32618_15

Organism: RIFCSPHIGHO2_01_FULL_Archaea_Diapherotrites_AR10_44_11

partial RP 30 / 55 MC: 5 BSCG 17 / 51 MC: 1 ASCG 26 / 38 MC: 2
Location: comp(9529..13197)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
transitional endoplasmic reticulum ATPase similarity KEGG
DB: KEGG
  • Identity: 60.1
  • Coverage: 726.0
  • Bit_score: 847
  • Evalue 5.90e-243
ATPase AAA; K13525 transitional endoplasmic reticulum ATPase id=5241726 bin=GW2011_AR10_complete species=GW2011_AR10 genus=GW2011_AR10 taxon_order=GW2011_AR10 taxon_class=GW2011_AR10 phylum=Archaeon tax=GW2011_AR10_complete organism_group=Archaeon organism_desc=closed, complete GWA2_AR10 similarity UNIREF
DB: UNIREF100
  • Identity: 60.1
  • Coverage: 726.0
  • Bit_score: 847
  • Evalue 2.10e-242
ATPase AAA; K13525 transitional endoplasmic reticulum ATPase Tax=AR10 similarity UNIPROT
DB: UniProtKB
  • Identity: 60.1
  • Coverage: 726.0
  • Bit_score: 847
  • Evalue 2.90e-242

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Taxonomy

AR10 → Diapherotrites → DPANN → Archaea

Sequences

DNA sequence
Length: 3669
ATGTTGGCAGGCGATAAAAAGCGCAAGGAAATTGTCCTCAGGGTCCAGGACCCTGACCCAAGCCACGTAGGCAGGAATATTGTTACGCTAAGCCGCAAGGCAAAGGAAGAGCTTGAAATCACTTCAGGGGACATTGTTGAGATTGAAGCTACTAAAAAGACCGCAGCCGTTGTATGGCCCGCAAGGCCTGAAGACGAGGGCAAGGACATAATAAGGATGGATTCCCTCATAAGGCGCAATGCGGGCATCGGATTGGGGGAAAAAGTAACAATAAGAAAAGCCCATGTAGAAGAGGCAAAAAAGGTTGTTCTGTCTCCCACGCAGGAAGTAAGGATTATCGCTTCCGGCTACGACAGAATCCTGAAGCGCAATTTCATTGGCAGGCCTCTTACAAAAGGGGATAACGTATGGATAAGCGTTTTCGGCTCCGGTTTTATTTATATTGTTACTGAAACCTCCCCAAGGGGGATAGTAAGGGTTACTGATTACACGCAATTCATTCTGAAGGAAGAGCCCGTAAAGGAGGCGGTTGAGGGAGTTCCAAAAGTCGCATATGAGGATATTGGGGGTTTAGAGGAACAAGTACAGAAAGTAAGGGAAATGATTGAACTGCCAATGCGCCATCCTGAGCTTTTCAGGCGTTTGGGGATTGATCCCCCGAAAGGCGTTTTATTGCATGGCCCGCCAGGCTGCGGAAAAACACTTCTTGCAAAGGCAGTTGCAAATGAAACCAATGCGCATTTCATTTCAATTTCCGCCCCTGAAGTTATGAGCAAATTTGTGGGGGAGGCGGAAGAGCGCATAAGGCAATTGTTCAAGGATGCGCAGGAAAATGCGCCAAGCATAATTTTCATTGATGAGATTGATGCAATCGCGCCAAAGCGCGAGGAAGTCATAGGGGAAGTTGAAAGAAGAGTAGTTGCGCAGCTTCTCGCAGCAATGGACGGGATGGAAGCGCGCGGAAATGTGATTGTTATTGCAGCAACAAACCGCATAAATTCAATTGATGAGGCATTGCGCAGGCCAGGCAGATTTGACAGGGAAATAGAATTCCCGGTTCCTGACAGAAAGGGAAGAAAGGAAGTGCTGCAGATTCATACAAGGGGAATGCCGCTTGCAAAGGATGTTGACCTGGACCATTTTGCAAATATTACGCACGGCTTTGTAGGGGCTGACCTTTCCGCGCTTGGGAAAGAAGCCGCAATGAAGGCATTGCGAAGATATCTTCCGGAAATAAATTTGGAGGATGAAACAATCCCGCAGGAAGTCCTTGAGAAGCTTGAGGTAAACAGGGAAGATTTCATAAACGGCCTTAAGGATGTCCAGCCCTCTGCCCTGAGGGAAGTTACAATTGAAATTCCAAATGTGAAGTGGGAGGACATTGGCGCACTGGATTATGTGAAGGAAGAACTGCGCCAGGCAGTTGAATGGCCGCTGCAGAATCCGGAGGCATTCAAAAGGCTCGGGATAAAGCCTCCGAAAGGCATTCTGCTTTACGGCCCTCCAGGCTGCGGCAAAACGCTGATTGCAAAGGCGCTTGCAACTGAAAGCGGAATCAATTTCATTTCAATAAAAGGGCCTGAGCTCCTGAGCATGTATGTCGGGGAAAGCTTGCCTTTTGATGAGGAACTTTTAGTTTTTGATGGCAAGAAAATATTCAGAGAACATATTGGAAAAATCGTTGAGGAAAGGAAAAATCTGCAAGTTGTTACATTTGATGATGATGGAAAGGTGTTATTTTCCAGCATAACTGATTTTATAAAACACCCTTTGAATGGAAAGCTGCTGCAAATAACAACAAAAACAGGCAGAAGAATCAGGGTTACGGACAAACATTCTTTATTTTCCCTTGTAGAGAATGAAATTGAAGCTGTTACCCCTTCGCAACTGATTGAAGGAAAAAGCGTTCTGGCGGTTCCTTCCAAAATACCCAACATTTCTACAATGGAAAAACAGCTGAACTTGTTTGAGATGTTCAGGCATGAGCAAAATTTCTTTATTCATTCCCCGCAAATCAAAGAGCTTATCAAGGGGCTGGGCTATAAAAAAGCCTGTGCCGTTGCAGGCATAAAACGCAAATATTTGTACGATATTGTTGATAGAAATCTGCCTTTGAGTCTAACAAAGTTTAATTTGCTGTTGGGTAAGTCAAAAGATACTCCCTCTCTAACTACTGCAAAAATCTCAAGAAAGGGCAGCAGGCATTCCCTGCCCGCCCTGCTGGAGCTGTCAGAAGGGCTATTTGAATTAATCGGCTTGTGGGTTGCCGAAGGCGATTTTAATAATGGCATGCCGAGATTGGCGATTTGTGATGGTGAAATAGTCAAAAGAATGCAGCAGATACTTGACAATCTCGGGCTAAAGTATTCACTTATAGAAGAGAGAGGAATAGTAATAAATTCCAGCACTATAACAGAAGTATTCAAGAAGCTAGGATTGACAAGCGGGGCATTCAACAAGAGAATGCCTGAAATCTTGCTTAGTGCCCCAAACAACATAGTTCATGCCTTCTTGAGGGGATACTTCAGCGGAGATGGAACCATTAGAAGCGGCGAAGGGAATTGCAAAATTGAAGCAACAACTGTAAGCAGAGAGCTTGCAAATGATCTGGCATTCTTATTCTTGAAATTGGGAATTGTTGCGAGATGCAAGGAAAAAAGAGAATGGACGGGTTCAATAAGCCATAGAATACAAATATTTGGCGCAGAAAATTTTGAGAAATTTATGCCAATAGGCTTCATTGATTCAAGGAGAAATTTAATGATTAGAGAGCAGTTAAACAAAATTACCTGGGCAAGAAGCAATGTCATTCCAATTAACCAGAAAATAGAGGCATTATTGAATGAAGCATTTGTAAGCTACCCAAAAAACATTACTGTTGGGAAAAATAAGCTGAAGCAGGCACTTTGCATGGTTGATTTAAACAGGCAAAAATACAATGAGTTATGGAAGCTTGTTGAAGCGGACATATTCTGGGATGTAGTTGAGAAAATTGAAGAAGTTCCTTACAAGGGATTTGTCTATGATGTTTCTGTTGAACCCTGCCAGAATTTCATTGCAGGCTTTGGCGGTATATTTGCCCATAATAGCGAAAGAGGCATAAGAAAGGTCTTCAGGCGTGCAAGGCAAGTGGCTCCGGTAATAGTATTCTTTGATGAAATTGATTCAATTGCAAGCAGGCGCGGAACACAGCTTGATTCCGGGGTTACGGAAAGGGTTGTAAATCAATTGCTTACAGAGCTTGATGGGATTGAAAGCACAAAGGATGTTATTTTTGTTGCTGCAACAAACCGCCCTGACCTGATAGACCCAGGGCTACTGCGCCCAGGGAGAGTAGATAAAATAATAAAGGTTGATGCCCCTGACAAGAAGGCAAGAATTGAAATCCTGAAAATCCACACCAAAAAAATTCCCCTTGATAAGAATGTCCCCATTGAAGAGCTTGCGGAAAAAACCGAAGGCTATAGCGGAGCAGACCTGGAAGGGTTAGTAAGGGAAGCGGCGCTGATTGCGCTCAAGGAAAGCGGCATGAAAGTGGAGAAAGTTGAGAAAAAGCACTTTGCGCAGGCAATGCTGAAAATTCTCCCAAGCATAAGCAAGGAAACGACAGAGGCATATGACGAATTCAGAACCACGTATTCCACATACAAGCCGAGCTACGTCGGATAA
PROTEIN sequence
Length: 1223
MLAGDKKRKEIVLRVQDPDPSHVGRNIVTLSRKAKEELEITSGDIVEIEATKKTAAVVWPARPEDEGKDIIRMDSLIRRNAGIGLGEKVTIRKAHVEEAKKVVLSPTQEVRIIASGYDRILKRNFIGRPLTKGDNVWISVFGSGFIYIVTETSPRGIVRVTDYTQFILKEEPVKEAVEGVPKVAYEDIGGLEEQVQKVREMIELPMRHPELFRRLGIDPPKGVLLHGPPGCGKTLLAKAVANETNAHFISISAPEVMSKFVGEAEERIRQLFKDAQENAPSIIFIDEIDAIAPKREEVIGEVERRVVAQLLAAMDGMEARGNVIVIAATNRINSIDEALRRPGRFDREIEFPVPDRKGRKEVLQIHTRGMPLAKDVDLDHFANITHGFVGADLSALGKEAAMKALRRYLPEINLEDETIPQEVLEKLEVNREDFINGLKDVQPSALREVTIEIPNVKWEDIGALDYVKEELRQAVEWPLQNPEAFKRLGIKPPKGILLYGPPGCGKTLIAKALATESGINFISIKGPELLSMYVGESLPFDEELLVFDGKKIFREHIGKIVEERKNLQVVTFDDDGKVLFSSITDFIKHPLNGKLLQITTKTGRRIRVTDKHSLFSLVENEIEAVTPSQLIEGKSVLAVPSKIPNISTMEKQLNLFEMFRHEQNFFIHSPQIKELIKGLGYKKACAVAGIKRKYLYDIVDRNLPLSLTKFNLLLGKSKDTPSLTTAKISRKGSRHSLPALLELSEGLFELIGLWVAEGDFNNGMPRLAICDGEIVKRMQQILDNLGLKYSLIEERGIVINSSTITEVFKKLGLTSGAFNKRMPEILLSAPNNIVHAFLRGYFSGDGTIRSGEGNCKIEATTVSRELANDLAFLFLKLGIVARCKEKREWTGSISHRIQIFGAENFEKFMPIGFIDSRRNLMIREQLNKITWARSNVIPINQKIEALLNEAFVSYPKNITVGKNKLKQALCMVDLNRQKYNELWKLVEADIFWDVVEKIEEVPYKGFVYDVSVEPCQNFIAGFGGIFAHNSERGIRKVFRRARQVAPVIVFFDEIDSIASRRGTQLDSGVTERVVNQLLTELDGIESTKDVIFVAATNRPDLIDPGLLRPGRVDKIIKVDAPDKKARIEILKIHTKKIPLDKNVPIEELAEKTEGYSGADLEGLVREAALIALKESGMKVEKVEKKHFAQAMLKILPSISKETTEAYDEFRTTYSTYKPSYVG*