ggKbase home page
Advanced Search
Search Help

CHLO_4_2790_3

Organism: Chloroflexi genomic scaffolds from RBG 4m depth

megabin RP 53 / 55 MC: 52 BSCG 51 / 51 MC: 51 ASCG 0 / 38
Location: comp(1342..4794)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
selenium metabolism protein SsnA Tax=RBG_13_Chloroflexi_50_21_curated UNIPROT
DB: UniProtKB
  • Identity: 88.2
  • Coverage: 434.0
  • Bit_score: 781
  • Evalue 1.90e-222
Putative dihydropyrimidine dehydrogenase [NADP+] (DPD) (Dihydrouracil dehydrogenase) (Dihydrothymine dehydrogenase) (PydA) n=1 Tax=Candidatus Cloacamonas acidaminovorans str. Evry RepID=B0VG14_CLOAI (db=UNIREF evalue=2.4e-123 bit_score=449.5 identity=61.3 coverage=31.10338835794961) similarity UNIREF
DB: UNIREF
  • Identity: 61.0
  • Coverage: 31.0
  • Bit_score: 449
  • Evalue 2.00e+00
selenium metabolism protein SsnA rbh KEGG
DB: KEGG
  • Identity: 48.2
  • Coverage: 434.0
  • Bit_score: 413
  • Evalue 2.00e-112

Lists

This feature is not on any list.

Notes

This feature has no notes.

Taxonomy

RBG_13_Chloroflexi_50_21_curated → Chloroflexi → Bacteria

Sequences

DNA sequence
Length: 3453
ATGGAAGAAAAAAGGATTGATCCACTCATCATGTCTATTGCTCAGCTCCAGACAGAGCTGTCACGCTGCGAATATTGTGAAGAGAGGCCCTGTAAAGAAGCCTGTCCTGCCAACTGCTCGCCGGCTGATTTCATCATGGCAGCCAGAGTTGGGAATCCGTCCGATATCCGGCGATCCGCAGCTGAGATTATGCATGCCAATCCACTGGGCGGTGTTTGTGGGATGGTATGCCCGGATACGTTGTGCATGGAAGCCTGCACACGCATGAAATTCGACGGGGCAATCAATATTCCACTTGTCCAGGCTACCATAGTCGAATTAGCTAAAGAGCTTGGGGGCATCCCACAATTCTCGCAACCAAAATTAAATGGGAAGAATGTGGCCATCATAGGTGGTGGACCTGCCGGGCTAGGCGCAGCAGCTGTCCTAGCACAGATAGGGTATACAGTGGATATCTTCGAAGGACGCAACCACCTCGGCGGGATGATGAGCCTGATACCTAACCACCGACTGGACAAGAAGGTGGTTGAGACGGATATACAATTCCTACTGTCGCTGGGTAATATCACTGCAAAAACGGGCATCAAAGTCCAGGATCCCAAAGAATTACTGAAAACCGGGTATGACGCTGTATGCGTCACTACCGGTCTCTGGAGGCCAATTGAGCTGGGTATCGAAAATGAAGACCTGGCAATCAAAATGGTTGATCTACTGGCAAAGCCGTATGCACACAAGTATAACGGGAGCGTGGCAGTCATTGGTGGGGGTGCGACCGCCCTCGACTGTGCTGTCACAGCGAAACACTATGGAGCTAAGACGGTTGAGCTTTTTATGTTGGAAAAACTCTCTGAGATGCCTCTGACTGCGAAAGAACGAAAGGAATTGTTGGATTTTGATATCGAAGTGAACGGGCGCATCCGGGTCAGCAAGATCATCAAGAGTGGTAAGAAAGTCACTGGTCTTGAGACGATTAAGGTCGAGCTTCCCGAAGGAAAATCGTTCAGCCCGGCGAAAATCCGTGACCTCCCTGGCACCGAGGGGAGACGCACCGATTTTACTGCAGTTATCGTGGCGATTGGGATGCAAGCAGCAATTCCCAGCCAACAGGGTGACGGGTTATTTTATGCAGGTGACATGCTAACGGGTCCGAAGACAGTTGTCCAGGCAGTCGCATCCGGCAAGACATTCCAGGCTGGTTGGGCTGGTGGTGTGATGAAAACCGCCTTTGATAATGTTCCCATCCATATCCCGGGTGAATACATGTTCACCTATAATCCTTATACATACGCAAATGCGGATAATGTCTCCGGTCACTCGCTTGACCGGGTCTGCCGCGAAGTTGAACAGCTGGTCAGACAATGGCCAGACAGGCTGACGATGGCTTCAACAGGCGGTCCGGTCACGGGTAACGATGAAAATGACGCGAAAGGTTGGCAATCCAACACGAAAAAACTGGAAGCGGCTGGGGTGATGGGCATCGAGTATTCGTTATCGTGTCCGCAAGGAGGCGACGGAACAGAAGGAGCCATCGTTTCCCAAAATGCTGCCCTCACGGCCAGGATCATCGATTGGATCATGCAGGTCGGCGACCTGGATATCCCGAAGCTGTTCAAGTTGACTGCGGCTGTCACTTCCATCGCGCCCATACTACGGGCGATACGCAAAGTGTTGGATAAATACCCGAACAAGAAAGCCGGCATCACCCTGGCAAATTCCTTCCCCACCCTGGCATTCCGCCCGGCTGTGGGACGAGTCTGGGAAGAAGGGATTGTCGTGGGGATGAGCGGTCAGGGTGTGACCCCGATCTCATACCTGACCCTGGCACAGGCAGTGCCGGAAGGGATCGAAATTTCAGGTAATGGGGGTCCGATGGATTACAAAGCTGCCATGGATTTCCTTGCCCTGGGTGTCAAGACGGTCCAGTTTTGCACGATCGTGATGAAGCATGGATATGGTATCATTCAGGACCTCGAATCGGGCACTTCTTTCCTAATGCAGCAGCGGGGAATTGCAGCGATGAAAGAACTGATTGGCATCGCTCAGCCCAATCCAATCACTGATTTTATGGAATTGACACCGGTCAAGAAGATCTCGGAAGCCAACCACGACTTTTGCGTCTCGTGCGGTAACTGTGCCCGCTGCCCATATTTGGCGATCACATTGGACGAGAAGAGCATGCCGTACACAGACCCTGCCTTGTGCACCGATGGGGAGAAGATTGCAGCGGTGGGTGATTTGGGCGAGATGAAGCGGCGTTTTCCGGACGCTGATTCAATGGACTGTTCCGGGAAGATCATCCTACCCGGGTTTATCTGCACCCATCACCACTTTTACTCAACCATGGCACGCGGGATGGGCATCCCTGGCGAGCCCGCCTCGAACTTTGTCGAGATCCTTGAGCGATTGTGGTGGAAAGTGGATCGGGCGTTGGATGAAGAGGACATCACCCTATCGGCACAGCTGCCCCTGATTGACTGCATCCGCAACGGCACGACCACAGTCATTGATCACCATGCCTCCCCAGCAATGAGGGATGGCTCGCTGGATATGATCGAGAGTGCCGTTCGGCAGGCGGGTCTCCGTGCCTCTCTCTGTTATGAAGTCTCCGACCGCAATGCCCGCGGTGGTGGGATTGCGGAGAATCAGCGTTTCATCCGGAAGGTCGGCAAGGGCGATGGTCAGATTGCAGCAATGATGGGAATGCATGCCTCATTCACCTTATCAGATACGACCGTCGAAGAATGCGTCTGTATCGCCCGGGACGCCGGTGTTGGTTGCCATATCCATGTGGCTGAAGACGCCGCAGACCGCCAAGATTCCCTCAACAAATATAAAATACCGACGGTGAACCGGCTGCACAAGCTAGGTGTGACAGGCGAGAAGTCTATATTTGTCCACTGCGTCCATATCGACGATACTGAGATGGATATCCTTGCTGCAACCGGAACGAGTGTGGTCCATAACCCTGAATCAAACATGAACAATGCGGTCGGCGTAACCCCGCTGTTGAAGTTGTTGAAAAAAGGCGTGCTGGTTGGACTGGGTACCGACGGGATGGGCTCGGACATGCTTGTCCAGATGCGCTGCGCCTATCTGCTACACAGGCTTGCCAACCACGACCCACGCGTTGCTTTCTTGGAAGCACCCCAGCTCCTTTTGCAGAACAACGCCATCATTGCCGAACGGCAATTTGGTTTGAGGTTGGGTGAGATTGCGGAGGAACGTCCTGCCGACCTTGCCATCATCGATTACCAGCCTCCGACTCCGCTCAGTGAGGCAAATTTCCTTGGGCATCTCATTTTCGGATTGGTGGATGCGACTGTCGATACTACAGTGTGTAAAGGCAAAATCCTGATGAAGGGAAAGCAGATTCTGAGTATGGATGAGGAGAGAATTGCTGCCCGTTCGCGTGAATTAGCCCCAAAGATGTGGATGCGACTGCAGGAACTCTAA
PROTEIN sequence
Length: 1151
MEEKRIDPLIMSIAQLQTELSRCEYCEERPCKEACPANCSPADFIMAARVGNPSDIRRSAAEIMHANPLGGVCGMVCPDTLCMEACTRMKFDGAINIPLVQATIVELAKELGGIPQFSQPKLNGKNVAIIGGGPAGLGAAAVLAQIGYTVDIFEGRNHLGGMMSLIPNHRLDKKVVETDIQFLLSLGNITAKTGIKVQDPKELLKTGYDAVCVTTGLWRPIELGIENEDLAIKMVDLLAKPYAHKYNGSVAVIGGGATALDCAVTAKHYGAKTVELFMLEKLSEMPLTAKERKELLDFDIEVNGRIRVSKIIKSGKKVTGLETIKVELPEGKSFSPAKIRDLPGTEGRRTDFTAVIVAIGMQAAIPSQQGDGLFYAGDMLTGPKTVVQAVASGKTFQAGWAGGVMKTAFDNVPIHIPGEYMFTYNPYTYANADNVSGHSLDRVCREVEQLVRQWPDRLTMASTGGPVTGNDENDAKGWQSNTKKLEAAGVMGIEYSLSCPQGGDGTEGAIVSQNAALTARIIDWIMQVGDLDIPKLFKLTAAVTSIAPILRAIRKVLDKYPNKKAGITLANSFPTLAFRPAVGRVWEEGIVVGMSGQGVTPISYLTLAQAVPEGIEISGNGGPMDYKAAMDFLALGVKTVQFCTIVMKHGYGIIQDLESGTSFLMQQRGIAAMKELIGIAQPNPITDFMELTPVKKISEANHDFCVSCGNCARCPYLAITLDEKSMPYTDPALCTDGEKIAAVGDLGEMKRRFPDADSMDCSGKIILPGFICTHHHFYSTMARGMGIPGEPASNFVEILERLWWKVDRALDEEDITLSAQLPLIDCIRNGTTTVIDHHASPAMRDGSLDMIESAVRQAGLRASLCYEVSDRNARGGGIAENQRFIRKVGKGDGQIAAMMGMHASFTLSDTTVEECVCIARDAGVGCHIHVAEDAADRQDSLNKYKIPTVNRLHKLGVTGEKSIFVHCVHIDDTEMDILAATGTSVVHNPESNMNNAVGVTPLLKLLKKGVLVGLGTDGMGSDMLVQMRCAYLLHRLANHDPRVAFLEAPQLLLQNNAIIAERQFGLRLGEIAEERPADLAIIDYQPPTPLSEANFLGHLIFGLVDATVDTTVCKGKILMKGKQILSMDEERIAARSRELAPKMWMRLQEL*