ggKbase home page
Advanced Search
Search Help

rifcsplowo2_01_scaffold_2860_6

Organism: RIFCSPLOWO2_01_FULL_Woesearchaeota_33_9b

partial RP 31 / 55 MC: 3 BSCG 7 / 51 ASCG 22 / 38 MC: 1
Location: comp(2972..9037)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Lytic murein transglycosylase n=1 Tax=Melioribacter roseus (strain P3M) RepID=I6Z887_MELRP id=5103087 bin=GW2011_AR20_complete species=GW2011_AR20 genus=GW2011_AR20 taxon_order=GW2011_AR20 taxon_class=GW2011_AR20 phylum=Archaeon tax=GW2011_AR20_complete organism_group=Woesearchaeota organism_desc=GWA2_A_30_20A_AR20 Complete genome similarity UNIREF
DB: UNIREF100
  • Identity: 30.2
  • Coverage: 999.99
  • Bit_score: 635
  • Evalue 1.60e-178
Lytic murein transglycosylase KEGG
DB: KEGG
  • Identity: 30.2
  • Coverage: 999.99
  • Bit_score: 635
  • Evalue 4.40e-179
Lytic murein transglycosylase {ECO:0000313|EMBL:AJF62368.1}; TaxID=1579378 species="Archaea.;" source="archaeon GW2011_AR20.;" similarity UNIPROT
DB: UniProtKB
  • Identity: 30.2
  • Coverage: 999.99
  • Bit_score: 635
  • Evalue 2.20e-178

Lists

This feature is not on any list.

Notes

This feature has no notes.

Taxonomy

archaeon GW2011_AR20 → Archaea

Sequences

DNA sequence
Length: 6066
ATGCAGGATCCAAATACTTTAAAGAACCCGAGTAAAAAATTAATGGCACTAACACTGATGCTGTTAATGATAGTAACACCTATGTCTGTTTATGCCCAATCATCTAGCACAATTTCAGAAGATTTAGGAGAAGTTATCAGCATAAATGTTGTTAATAACGAGCCAGCTTCGCTTGTAAGCACACAAATAGAGGCAACAGATGTTCCAGTATATGTTTTTCTTAAAGGTATCACCCTTGGAAGTTTTATGGGTGAAAATGCTCCAGAAACAGAACCATTCATCTCTAATCCAAATATAAATAGGGTTGTAGTAACTCCTAGTGGATCATCCAGCAGCTATGTCCGAGGAATTAAGTACCAACAGCCAAATAAGGGATCACTGACTATAGACAATCTGGGTTATGTAATTGTTACACTAAGGCAGATAAAAGATGAAACAAAAGTTCCTGAAGAAATAACTCTTAACATGAGCGCAAGGATATATTTTGATCTCATGCGTGGATTTGCAGGCGCTTCATCATCAGACCTCGCTCTGAGAGAATTAAATGAGGATCAATGGAAAGGTCAGTCATATAAAAATTCATTCTGGAACGGAAAGGGCTATCTGAGGTTAGTGGATATAGAAAATAATGTGGCTAAAATCCAGGTTTATGATTCTGCAATATCCCCGCTTGGGTTGTTGTTCAGTTCTGAAGAGGAAAATCAGAACTTAGAGAGATACAATGAACGCGGGGTTTTATTATTGAGCAAAGGAGATATTAAAACCATAACAATCCCGGGTTCCTCGGCATTTTTCCATGATCAGGTAAGAATAAAATTGAATAAGATTGGAGATATACAAAAGGAAGTTAAATTAAAAGTTGAGTCAATGGACGGAACTGATTACAAGATTATTGTTGAGGATATGAGCATTGCTTCTGGTTCTAATTGGAAAGTTTATAACATACTTGAGCAAACTGCAAAAAATCCAGGAGAAAAACAGTATAGTGTTATACTAAGGAATGGCGTCGGTGAAAAGAGAACACTGATGCTAACAAAAAAACAGGAGGGCGAGAAGGGAACAACATTCAAGGAGGAGACGACAGATGAGAATTTAGAAGAAAACAAGAAAAATATATGTGATGAAAGTGCTTTAATCAATGAAGATGATTCCGAACTGCAAAATAAACTATCTGACTTGATAAAATCAGATGAGACTGATGACATAAAAAAGATTAATGCAAGAAAATTATACTGCACAGCAATATCCCACTACGAGCAGGCTATGACTGAAGATGTAAACATAAGGGATCAGGTGTACAGGGGAATAGGAGAGGCTTATTTCTCGCTTTCTGATTTCTTGACTGATGAGGACATGGACACATCAAGGTCTTTGGCATTGTATTACCTGAAAAGAGTTTCCAATGTTGCATCTGTAGAAAAATCAATATCTGCCATAGAAAATCAATTATTCAGCAAATCAAAATCCGAGCCTGTTTACTTGGAGGATGAGGGTGTTAGGGTTACACTGCTTGATGTGATTATTCCTCCAGTCACTGATAAAACTTCTGCTACAATAGAAGATAGAGAGGCTGGAGCTAGTTCCGCTTCTGGTATTTATTATGAAGGAGATACTGTTGAAAATATTAAAGAAACAGACAAAGATGGAAAAATTATATCTTATTGGAAAGTTATTAATATTTATTCAGAACGTGTCGTTATCCAAAAATATGTGCAGGGAAAAACCAGTGGAAGTCAAACTCTGTATTTAGATTATGAGCAAAATAAGGACGTGGATGGACATCAGTTGACTCTTAAAAAAGTTGATTCAAAAAAAAGCGCTTATGTTACTGTAATGCCTGGCGGAGGAGATACTTATTCTGAATCCTCTTTTATGATACACATTCCTATAGAGAAGAGACTGGTTCAATGGACTCCAGGTCAAATAGACAAGATGATCAATGAGACAACAAAACAGATAGAAATTCTTGACAGATACATAAGCCAGTTAGACAGCATGATAAAATCCTGGAAGTATGTCTGCTTTGCAACGTTTGCATGGGTGACTATCAAAAATTCATTCCTTGCCGGAGCTGATAGAAATATGGCCAGAAAGGATGTTATGCCACGTTACAATAAAATATGCGAAAAAGAGGTTGCTCTTGGACAGAACACATTTGATAAGTGCATGAATAATCATGCTAAACTGATAGAAGATGAATTGAATGTTCTTGAACAAGAACAGCAAAAGGTTTTAGAATGCAATAAAAAGGGAGAAGACTGTTTTTCCTCAGTTGAAGAGCTAACTCCGTATTACCCGCAAGGATTTGATAAAAACACGATGGAATTAGGCGCTGCAGATAAAATTGAATCAAGCGAGTGGCTGGCTCTTTACAAGTGTAAATTATATGAAAAAAAATTAAGCGGGGATGGATTAAAATCGCTCCAGGACGAGTGTAAAGGAACTGAAGAATCTATTACCGCCAAGCAAAAAGCAATGAGCGCAGCAATAACTGCCACTAAAAATGAGATTAGCGTAAACAAGGACTCATCTGACAAGGAAAAAGCAAAATTTGTTAATAGTTATAATTCAAAATACAAGGCTGCATTGCGTCATACCACATATTACGGGTCTGGCGAAGATGCCACTAAAAAACTTGAGGATGATTTCAATGAAATAAATACAAAGCTTGCAGAAATGAAGATGGCTCCTCTTGCGAATAAAGAAAATATAAAAGTTGAGGCATATTCTTCTGGGGGGGATAAATACAATCTTATCTCTGTTGATTCTCAGGGGCAGCTTATGGCTTCAACACAGTACGAATTTTTACCTGCTACGCAAAGAGACAATGCCAACAATCCATTAAATGCCGATTATAAAGTAAACTGTGTTGATACAAAATTGGAAAGCACTCCTGATTGTGTAAGCAACTTGAATAAATTAACAGAACCTTTGGTGTTAGAAGCAGGAGAACAGAATTACAGATTATTTAAAGATGGTAAAGGCCAATTCTACGCAGCCCTTGAAACCATTGAATTGACAGATGTTGGAGAAAGAAATAATTATGCTTCAAATGCAAAGGCGCAGTTTGATAATGAGGGAAGACCGTACTGTATACCCACTGGAGAGAATGGAAACTTCATAAAAGTGCTAAGCTGGTATGCAACTGGAGACCCGGATGATTGTGAATACTGGAATGTTGGAGTTGATGGAGAGCCATGTTCTGGAGATGATTTGCTAAAAGCTGGAAAGGACAGAATAACTGCAGCTATAGGCGGTAAGTGCACTACTATTTCAAAAAGTGTTGGTTCTTGCAAGGATGGACAGAGCAAAACAATCGGGAAGACAGAATTTGCCTGCTCACAGTCTGCTTATAGAATAACCCAGATAGGACAGCAAACCCACTGCCAGGATGTTATGGATCCAAGTGATTGCAAGATTTTATTTGCTGTATGTGATCCTGTAATGTGCCCTCCATCCAGATTTAATCTTGGAGGAAAATATCCACTGACGAGAGGAACAGTAGTTGACACAGGAATAATTGGATCCATTGTTTTGGGATTGCCTAATTTCCCAGATGATCCAGTTCCAGTTTGTCTGCCAGGTATACTGGCTGGTTTGAGAAGTATCAGATCACTGCTTGAAGGATTTAAGGAATGCCTATCAGCTGCTAAAATTGATCACGAGAATATAGGAATCTGCGACAAGATAAGGTCTGTAGGAGTATGTAAGTTGTTCTGGCAGGAATTGATTAATATTTTCAAGCTGCGCGGGAGCTTATCTGCTATGATATCTGGAAAAGTATTTGGCGTAACAGAGGGAAGCGGTGGCGAGTACTTAAATTTCAACCAGAATATAAATGCCGTTTCAGACTCAGTAAAATATTTTACTTCAGAATACGGATCAAGCGCATTTGCAGCTTTTAAGGGGAGATCAACAGCTGAAATGGGGTCAACAATCTGTGAGGCAGCAATATACGGAAAATTCGGGGATGTTGGAGAGTTTGTAGATCAGTTGGCAGAGGCAGAAAATCCGCCTCAATTCACTGCAACATTTGATGAGGCTCCATGGGCTGTTACAGCAGGAAGAACATACAGCACGCAATACGGAATGCAATCATCCGAGCAGTCAATGTACAGTGTTTATTATTTTATTTATGCAGGGAATATCCCCGACATAGCTAAAACAGGATATGCAAGAGAGGGAGTTAAATATGCAGTTTATCTTAGAGATGATTTAGGAAGAACTTTGCCTGTTACAGTAAGAAATTCTAATCAGTTGTATGACACAGTTCCTTATGATGGACATAGAGATGTTAGCGTAGAAAAACTAGGACCAAGAGGAATGAATAAGATTTGTGTTTACATCAATGGAAAAGAGGATTGCGGATTTGGAAAGGTAAGTACAGCATACTCGATTAATGCATTGAACGATAGAATAGTCAAGAGTGATGCACTGACAAAGAGCATTACAAGCGCTGATAAGTGCGTATCTGATGTTCCAAGGACATCCTCTTCTCTTGGAGGAGTAATACTTCCACAAGAGTATGGATTAATAAGCTCCGGAATTATAAGAACATGTTCTGTATTAAATCCGGGAAAAGCATCTGAATCTGATCGTTGGCAGGATATAGGAACATGCGGCCAGGACAAGCAGGGCAATAGCCTTGGAAAGTGCTGGATTGATATGAGCAGTGTCAGCGTCAAAAATATAGAAACCATGGAAGAAATACAAAAGGGAATTATTTCTACTAGCGCTGAATTAAATGCAAAAATAACGCTTAGTGAAGAGCAGCTTAAGAAATACTTCAGCGAGGATAAAGCCAAAGCATACTATGAAGGGTTAGAAGCCAAAAGAATATCTCTTAAAGGAAGTGATTTGATTAATTTGTTCATAAACGGAGTTGATAGCATCACATATAAAACGCTTATAGATTATTCTTTGAATCCTAGTTATAAGATACTTGCGCAGATCAGCACTGCAGAGATTTATGCTTCACTTGCTGGAACAGTTACAATTCCAAAACCAGAAACTGTAGAAGAAGAGACCATACAATCTGCGGGAGCAGAAAAAATTAAATCGGGAATAGAAGAAATTTGTTCCATAAATGGAGATTGTGCTAGCGGATATTGTGAAGGAGGAATTTGTGCAGAAAAAGTAGTAGTAGAATGTAGAACTCGTACTAAGGAAGAATGTGATACTGAACAGGAAACTTGCATGTGGACTGATTCAGGTTGTATCTCTAAAATAGGTCCTTCTCCACAAAGTTTATCTGCTAAAGTTACTCTAGATTATAATCAAAAAATTTACTTAAAAAATTATATCCTAGTTGATGATCCTAGCTTAACAATAGAATTAACCAATGTTAATACAGCAGATCATAGTATCGAGCTTACAGATAATCATAAACTTTTGTCTAAAGTAGAATATAAACTTAATGAAGAAAATACAATAAATTATGGTGATATATATAGTATAACTTACAAAGTTTTAGATATAAATTATTATACCAAAACCGTAACCTTAAATATTGTAGCACTTCGAAAAATCGAAAAGACTTGTAATGGTTGTAATCAGCTTTCAGGGGGATGTGAAAGTGAACAAAAGTGTAACGAGTTTGATACTGCTCAATTAGATTGTTATCTTAGAACAAAAAATTGGCTTGGCTGGTTTAATGCAATAGTCCCTCCAACATATAAAAATACATGTTTATCCTGCCAATCTAATTGTATTTATGATAACACTGAGTGCGGACAATGTAACAAATGTTCTTGGTCTGCTTTTAATGCAAAGTGTGTTGGTGCAACTGAAGTGGAAAAAGATTATTATTTTCATGTACCATCTGATTGGAATGTCATGCGAATAGTAAGCCTTTTCTATCCATCCACCCAAACTAGTGATCAGAACTTTATAGCAAATTTCTTATCTTATAAAGATAATGAAGATATATTTGAGGCTAATAGAATAGCAACGAGTGGAAGTTGTGTAATAATTCCATTGAGTGAGATTCAGTTTACACAATTAATTACACAAAAACCAGTAATAAAACAAGTTTTATCTAATAAAAAATCCGAAGTATGTACTTAA
PROTEIN sequence
Length: 2022
MQDPNTLKNPSKKLMALTLMLLMIVTPMSVYAQSSSTISEDLGEVISINVVNNEPASLVSTQIEATDVPVYVFLKGITLGSFMGENAPETEPFISNPNINRVVVTPSGSSSSYVRGIKYQQPNKGSLTIDNLGYVIVTLRQIKDETKVPEEITLNMSARIYFDLMRGFAGASSSDLALRELNEDQWKGQSYKNSFWNGKGYLRLVDIENNVAKIQVYDSAISPLGLLFSSEEENQNLERYNERGVLLLSKGDIKTITIPGSSAFFHDQVRIKLNKIGDIQKEVKLKVESMDGTDYKIIVEDMSIASGSNWKVYNILEQTAKNPGEKQYSVILRNGVGEKRTLMLTKKQEGEKGTTFKEETTDENLEENKKNICDESALINEDDSELQNKLSDLIKSDETDDIKKINARKLYCTAISHYEQAMTEDVNIRDQVYRGIGEAYFSLSDFLTDEDMDTSRSLALYYLKRVSNVASVEKSISAIENQLFSKSKSEPVYLEDEGVRVTLLDVIIPPVTDKTSATIEDREAGASSASGIYYEGDTVENIKETDKDGKIISYWKVINIYSERVVIQKYVQGKTSGSQTLYLDYEQNKDVDGHQLTLKKVDSKKSAYVTVMPGGGDTYSESSFMIHIPIEKRLVQWTPGQIDKMINETTKQIEILDRYISQLDSMIKSWKYVCFATFAWVTIKNSFLAGADRNMARKDVMPRYNKICEKEVALGQNTFDKCMNNHAKLIEDELNVLEQEQQKVLECNKKGEDCFSSVEELTPYYPQGFDKNTMELGAADKIESSEWLALYKCKLYEKKLSGDGLKSLQDECKGTEESITAKQKAMSAAITATKNEISVNKDSSDKEKAKFVNSYNSKYKAALRHTTYYGSGEDATKKLEDDFNEINTKLAEMKMAPLANKENIKVEAYSSGGDKYNLISVDSQGQLMASTQYEFLPATQRDNANNPLNADYKVNCVDTKLESTPDCVSNLNKLTEPLVLEAGEQNYRLFKDGKGQFYAALETIELTDVGERNNYASNAKAQFDNEGRPYCIPTGENGNFIKVLSWYATGDPDDCEYWNVGVDGEPCSGDDLLKAGKDRITAAIGGKCTTISKSVGSCKDGQSKTIGKTEFACSQSAYRITQIGQQTHCQDVMDPSDCKILFAVCDPVMCPPSRFNLGGKYPLTRGTVVDTGIIGSIVLGLPNFPDDPVPVCLPGILAGLRSIRSLLEGFKECLSAAKIDHENIGICDKIRSVGVCKLFWQELINIFKLRGSLSAMISGKVFGVTEGSGGEYLNFNQNINAVSDSVKYFTSEYGSSAFAAFKGRSTAEMGSTICEAAIYGKFGDVGEFVDQLAEAENPPQFTATFDEAPWAVTAGRTYSTQYGMQSSEQSMYSVYYFIYAGNIPDIAKTGYAREGVKYAVYLRDDLGRTLPVTVRNSNQLYDTVPYDGHRDVSVEKLGPRGMNKICVYINGKEDCGFGKVSTAYSINALNDRIVKSDALTKSITSADKCVSDVPRTSSSLGGVILPQEYGLISSGIIRTCSVLNPGKASESDRWQDIGTCGQDKQGNSLGKCWIDMSSVSVKNIETMEEIQKGIISTSAELNAKITLSEEQLKKYFSEDKAKAYYEGLEAKRISLKGSDLINLFINGVDSITYKTLIDYSLNPSYKILAQISTAEIYASLAGTVTIPKPETVEEETIQSAGAEKIKSGIEEICSINGDCASGYCEGGICAEKVVVECRTRTKEECDTEQETCMWTDSGCISKIGPSPQSLSAKVTLDYNQKIYLKNYILVDDPSLTIELTNVNTADHSIELTDNHKLLSKVEYKLNEENTINYGDIYSITYKVLDINYYTKTVTLNIVALRKIEKTCNGCNQLSGGCESEQKCNEFDTAQLDCYLRTKNWLGWFNAIVPPTYKNTCLSCQSNCIYDNTECGQCNKCSWSAFNAKCVGATEVEKDYYFHVPSDWNVMRIVSLFYPSTQTSDQNFIANFLSYKDNEDIFEANRIATSGSCVIIPLSEIQFTQLITQKPVIKQVLSNKKSEVCT*