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SCNpilot_cont_500_bf_scaffold_3590_20

Organism: SCNPILOT_CONT_300_BF_Nitrobacter_62_12_partial

partial RP 22 / 55 MC: 1 BSCG 23 / 51 MC: 3 ASCG 10 / 38 MC: 1
Location: 19010..23980

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
hypothetical protein n=1 Tax=Afipia birgiae RepID=UPI00031B19F6 similarity UNIREF
DB: UNIREF100
  • Identity: 54.8
  • Coverage: 999.99
  • Bit_score: 1699
  • Evalue 0.0
  • rbh
Uncharacterized protein {ECO:0000313|EMBL:EKS37847.1}; TaxID=883079 species="Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Afipia.;" source="Afipia clevelandensis ATCC 49720.;" similarity UNIPROT
DB: UniProtKB
  • Identity: 53.1
  • Coverage: 999.99
  • Bit_score: 1663
  • Evalue 0.0
hypothetical protein similarity KEGG
DB: KEGG
  • Identity: 56.0
  • Coverage: 999.99
  • Bit_score: 1424
  • Evalue 0.0

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Taxonomy

Afipia clevelandensis → Afipia → Rhizobiales → Alphaproteobacteria → Proteobacteria → Bacteria

Sequences

DNA sequence
Length: 4971
ATGGCGAACAATCCCAAGAAGGTCAAAGATCCGACGGAAGTCGCTCTTTCCGCCATTCAGGAGGCGCTGAACGTCGGCGAGGCCTCCGCGGGCAGTCCGGACCAGGGCCGCCCGGACGTCGCGCCGCCGTTCTCCCCCGCGGCAGGGCATGGCGAGGATGGGTTTGACGTCCGCGGCACCGCCGACCGGCCCTCATTCGATACCTCCGAGACACCGGTCTTCACGCGGCGTCCCGCCAACGACGATCGCGAAACGATCGGACAGATTCTTCAAGCTATCCAGAACAACCGCCCGGCCCGAAATATTTATACGCTCGCCTCGCTTTTCGCTGGCGTCTGGATTCTCGGCGCCGGCTTTCTGACCATCAGCTTCCTGCCCTCGCTGCAGGCCGCAATGGGTCAGGGCAGCGGCGGCACGCTTGCCCTCACCGGCCTGATCGCCCTGTTTTTCGCCCCCGTTCTGCTGTTCTATTTCTTGGCGAGCCTGGCCTGGCGCGGACAGGAACTGCGCATGATCGCGCAGTCGATGGCGCAGGTAGCGATCCGGTTTTCCGAACCGGAGGGGCTGGCCAGCGACTCGGTGGTGACGGTCGGCCAGGCGATCCGGCGTGAAGTCGCCGCGATGGGCGATGGCGTCGAACGCGCCATCGCGCGCGCCGGCGAACTGGAAGCCCTGGTCGCCAACGAGGTCGCCGCGCTGGAACGAGCCTATTCCGACAACGAGGTTCGGATTCGGGCATTGCTTCAGGATATCGCGCTCCAGCGCGACAATCTCGTCGGCCAGGCCGAGCAGGTTCGCAGCGCCATCTCGGGTGTCCAGATCGACCTGCGACACGACATCGCACTGATCAGCGATGCCATCGCCTCGCGCGTCGACGAGGTCGCAAAAGGCATCACCGGTGCGCTGGAAGAGCGCGGCGAGCACATCACGACGGCGCTCAGCAACGCCGGCGACAATATGATCCTCGCTCTCGGCGAACGTGGCGGCGACCTGCTCGACCGGCTCGAGGAAGCCAGCGCCGAGACCGCGCGCGCCGTGCTCGATGCGAGCGAGCGCCTGACCAGCAGCCTCAACTTCAAGACCGGTCACGTCCACGACGAGTTCGCCGATCTGGCCGACCGCGTCCATGAGATGCTCAACGAGCGGGTCGACCGGATTACGAACGAATTCGAGCAGAAGTCGGCCTCCATCGTCGAAGGCATTTCCGACCGCACCGAACAGGTCCACGACTCGCTGAAGAATTCCAGCGACTCCTTGCTGGTGGAACTCGAGCTTCGCGGCGCCGACCTCGCCAGCAAGATCGACGATGCCGGCAACCGGCTGGCAACCCGGATTCTTTCATCCGGCGACAAGGCCGGCGAAGCGCTCGACGTCACGGTCAATACGCTGGTCGCCAAGGTCGCCACTCAGACCGAAACCGCGCACGATACGCTCAGCCTCCAGATGAGCGCGTTCGATCAGCTCATGAAGGACCAGGGCAGCGAGCTTGCGGAAAAGTTCGCACGCGACAGCGGTACGCTCGGCGCGCTCATAACCCGCCACATCTCTGAATTCGACCGTACCGTGAAGACGTTCGGCGGCGAGATCGTCGATCGCCTCGGCCAGCGCACCGAAGATATTGCCCGGAGCATGAAGGCCTATGTCGATACCTTCGATTCGCGCCTGGCGTCCAATGGCGGCGAGATCAGCGCCGCGCTGGATCAGCGTCTGCTGCAGTTCGAAACCACACTCCAGTCGGGCGTCAGCAATCTCGACGCTTCGTTCGATGCCAAAATCAAGTCCTTCGACGAGTCCGTCAACGGCCGCCTCGCCGTGCTCGAACAAGCCTTCGACTCGCGCGCGAAGTCGGTCACGGCGACGATCGAGAACCGGCTTGTCACCCTCACCTCGTCGCTGTCCGACGGCGCCGCTCATGCGATCGGCTCGATCGAGAGCCGCCTCGCCCACTTCGCAACCTCGCTGAGCGACGGCGCAACTGAGGCCGTTGCGGCGCTCGAAGGGCGCATCTCGGGAGTGACCGAAACCATCGACGATCGCAGCGCGATGCTTGCGAACACGATCACGGCGCGATTCCAGGAAATTCACCAGGGTCTCGACGAGCGCGTCGGCCTCGTCGCGACCACGATCGAAACGCGCGTCGCCCAGTTCGAAGACCTGCTTGGATCGCGGGTCGAAGCCGTGGCCGGCCGCTTTGAATCCAGCGGACGGCAGGCCAGCGAGGCTCTGCTGGTGCGCGCCGAGGAGCTGTCGCACGGCATCAAGTCCCATGTCGACGACGCGGAGCGCTCGCTGACCAATCTGGTGGTCAATACCAGCGAAACCATTCAGACCGGCGCGCGTGCCGCCCAGCAATCCCTGCTTTCGGTTTCGACCGAAGTGGGCGCCCAGTTGCAATTGACCTCGACCGAAGTGGAGCGCGCACTGACCTCGGCCGGAACCGCCGCCGCCAACTCCATCGTCAACAGCGCCCGCGATGCGCAGACGACGCTGATCAACTCGTCGGCCGAAACGGCGAGCCGGGTCAAATCCCTGTCGGCGGAAATCGAGCAGGCGCTGTCGGCCGCCGGCACCAACACGGCGGACGTCGTTCTCGCCGGCGCGCGCGCGGCGCAGACCACGCTGGTCTCCGCTTCCTCGGATGCCGCGACGCACGTCAAATCGCTCGCGAGCGACATCGAGCGGACGATGACGGCGGTCGGCACCAACACGGCCGCCGCCATTCTGGGCAGCGCACGCGAGGCCCAGACCACGCTCACCACCGCCTCGGCCGATGCGGTCGGTCACGTCAAATCGCTGGCGAGCGACGTCGAGCGGACATTGACTGCGGTTGGCGCCGACTCCGCCGCCGCCATTCTCGGCAGCGCACGCGAGGCCCAGACCACGCTCACCACCGCCTCCGCCGACTCCGCCAGCCAGATCAAGGCGATCTCTCTGGATATCGAGCGCTCCCTCCACGCGGCGGCGGCGAATACCACGGAGATCATTCAGGCGAGCGCGCAGAATGCGCAGGCCGCCCTCGTCTCCGCGTCGAATGAAGTCAGCACCAAGGTCAAGTCGGTATCGACCGACGCCGAGCGCCTGATCTTTGCCGCCAGCGGCAGCTTCAGCACGACGATCACGGGTAAAACCGACGAAGTCGTCAACTATGTCCAGCAGCAGACCGACCGTCTCTCGCAGATGATCGACAGCAAGCGGGGAGCTCTGGTCGAAGCTCTCGGCGGCAAGGCCGATCAGCTCAACTCCGATATCAGCCGCGTCACCGCCGATGCCCTCAAGTCGATCGAGGTCAAGGGCCAGGCATTCTCGCAATCGATCGCTGCGAACGGCTCCGACGTCGTCCGCACCATCACCAACGCGGGTGAGCTGGCGACAAGCGCGGTCACCAAGTCGATGAAGGATCTCGAGCAGGCGTCCCGCTCGGCCATCGAGCAGTCGCGGCAGGCGTCCATCACGGCCGTCACCGACATGCAGGAGACCAGCAAGATCCTCCGCACCGATACCGTCGCGCTGTTCGAGCGGTTGCGAGAAGGCAACATCCTTCTTCAGGAGGTCCTCACCGGCGCGCACGAAAATCTCAATTCGCTGGAGCGTGCGCTCGTCACGCGCGTCGCCGATTTCGTATCGACCATGAAGGATGTCACCTCGCAAAACGGTCTCGCGACGCAGACGCTCGAAGATCAATTGGCGGTGTTCAACGCCAAGGCTTCCAAGGCCCTTGACGACTTGAGCACGCTGTCCAACCAGTTCGAGACGCATGGCCACATTCTGGTCGAAGCTGCGGCGCGGGTCGAGCAGAGCAACCAAAGCGCCGCATTGTCGGTCGAGGAACGCAAGTCCGTGCTTGAATCGCTCGTGACGACGATTGACTTGCGGACGACCGACTTCGATCAGCGTTTGACGCGGTTTACGAGCCTGCTTGATGAATCGCTTGCCGCCGCCGAAGAGCGCGCGCGCGATATCGCACGGGTGGTGGCCGAGACCGCCGGCGTCGGATCGGCGGCGATCAGCCGCCAGTTCGAAGCCGTTCGCACGACGGCCGAGGAAGAACGCCGCCTGACCTCCGAATCCATGAGCGAGATTTGCCAGCAGGCGACGGAGGAAGCCGACGCCATGCTCCGACGGTCCGCCGACAAGTTCGCGGCCCTGGTTCAGGACATGAAGCAGATGACCGCGGAGATGCACACGGAACTCGAAGCAACGCGCAACGAGCTTCGTCGCGGCGTGCTCGAGATGCCGCAGGAAGCGGCCGAGAGCACCTCCCAGATGCGCAAGGTGATCGTCGATCAGATCGAAGCGCTCGCCGAGCTCAACCGGATCGTCGCCCGCCATGGTCATGGGTTCGACGTTGTCAGCAACGGACGATCGGCTTCGCAGCGCGAGGAAGAACCGGTGGCGGCGGCGGCCAGCAGCCGCGCCACGACGACGACACGCTCCGCGTCTCGCATGCGTGACAGCGGCAGCGCGTCGAACCTACCGCCGCCCGACCTCGGCGCTCCGTCATCCCGCCGCACGGACACGCCTCCCCCCGGCCCCGCGAACGAAGACCACGGGGGCGACGACTGGCTCTCGGATCTCCTGAACCGAGCCGACACCGGCAACGACCGGCGTGGGCGACCCGCGCAGCAGGCTGCCGCGAACCCGCTGGATTCGCTGTCGCTCGATATCGGCCGCCTGATGGATCGCAACCTTGCCGGGGAGATGTGGGACCGCTACCAGCGCGGCGAACGCAAGGCCTTCAGCAAACGTCTCTATACGCCCGCCGGCCAAAAGACGTTCGACGAGGTCGCCCGCAAATACCGGACCGACCGCACGTTCAAACAGACGGCCGATCGCTACATCGCCGAATTCGAGCGCCTTCTGGACGAAGTCGCGCGCGACGAGCGCGAGCCCAGCGCGATCCGGGACCATCTGATGTCGGAGACCGGGCTGGTCTATACGTTGCTCGCCCATGCGGCGGGACGGCTCGGATAA
PROTEIN sequence
Length: 1657
MANNPKKVKDPTEVALSAIQEALNVGEASAGSPDQGRPDVAPPFSPAAGHGEDGFDVRGTADRPSFDTSETPVFTRRPANDDRETIGQILQAIQNNRPARNIYTLASLFAGVWILGAGFLTISFLPSLQAAMGQGSGGTLALTGLIALFFAPVLLFYFLASLAWRGQELRMIAQSMAQVAIRFSEPEGLASDSVVTVGQAIRREVAAMGDGVERAIARAGELEALVANEVAALERAYSDNEVRIRALLQDIALQRDNLVGQAEQVRSAISGVQIDLRHDIALISDAIASRVDEVAKGITGALEERGEHITTALSNAGDNMILALGERGGDLLDRLEEASAETARAVLDASERLTSSLNFKTGHVHDEFADLADRVHEMLNERVDRITNEFEQKSASIVEGISDRTEQVHDSLKNSSDSLLVELELRGADLASKIDDAGNRLATRILSSGDKAGEALDVTVNTLVAKVATQTETAHDTLSLQMSAFDQLMKDQGSELAEKFARDSGTLGALITRHISEFDRTVKTFGGEIVDRLGQRTEDIARSMKAYVDTFDSRLASNGGEISAALDQRLLQFETTLQSGVSNLDASFDAKIKSFDESVNGRLAVLEQAFDSRAKSVTATIENRLVTLTSSLSDGAAHAIGSIESRLAHFATSLSDGATEAVAALEGRISGVTETIDDRSAMLANTITARFQEIHQGLDERVGLVATTIETRVAQFEDLLGSRVEAVAGRFESSGRQASEALLVRAEELSHGIKSHVDDAERSLTNLVVNTSETIQTGARAAQQSLLSVSTEVGAQLQLTSTEVERALTSAGTAAANSIVNSARDAQTTLINSSAETASRVKSLSAEIEQALSAAGTNTADVVLAGARAAQTTLVSASSDAATHVKSLASDIERTMTAVGTNTAAAILGSAREAQTTLTTASADAVGHVKSLASDVERTLTAVGADSAAAILGSAREAQTTLTTASADSASQIKAISLDIERSLHAAAANTTEIIQASAQNAQAALVSASNEVSTKVKSVSTDAERLIFAASGSFSTTITGKTDEVVNYVQQQTDRLSQMIDSKRGALVEALGGKADQLNSDISRVTADALKSIEVKGQAFSQSIAANGSDVVRTITNAGELATSAVTKSMKDLEQASRSAIEQSRQASITAVTDMQETSKILRTDTVALFERLREGNILLQEVLTGAHENLNSLERALVTRVADFVSTMKDVTSQNGLATQTLEDQLAVFNAKASKALDDLSTLSNQFETHGHILVEAAARVEQSNQSAALSVEERKSVLESLVTTIDLRTTDFDQRLTRFTSLLDESLAAAEERARDIARVVAETAGVGSAAISRQFEAVRTTAEEERRLTSESMSEICQQATEEADAMLRRSADKFAALVQDMKQMTAEMHTELEATRNELRRGVLEMPQEAAESTSQMRKVIVDQIEALAELNRIVARHGHGFDVVSNGRSASQREEEPVAAAASSRATTTTRSASRMRDSGSASNLPPPDLGAPSSRRTDTPPPGPANEDHGGDDWLSDLLNRADTGNDRRGRPAQQAAANPLDSLSLDIGRLMDRNLAGEMWDRYQRGERKAFSKRLYTPAGQKTFDEVARKYRTDRTFKQTADRYIAEFERLLDEVARDEREPSAIRDHLMSETGLVYTLLAHAAGRLG*