Wolframiiraptor sinensis


Citation

Formal styling
Wolframiiraptor sinensis Buessecker et al., 2022
Proposed by
Buessecker et al., 2022
Status
Valid (SeqCode)
Register List
seqco.de/r:slp2ijs4 (validated)

Nomenclature

Rank
Species
Syllabication
sin.en'sis
Etymology
N.L. masc. adj. sinensis, of or pertaining to China, where the organisms were identified from
Nomenclatural type
NCBI Assembly: GCA_023261815.1

Taxonomy

Description
Sixteen MAGs representing this species were identified from thermal springs in the Rehai and Ruidian geothermal fields, Tengchong, China. These genomes ranged in size from 990,328 bp to 1,230,238 bp, in 10 to 90 contigs, with G+C content of 53.7-55.6 %. Genome completeness was estimated at 92-98.1 %, with 0-2 % contamination, as determined with CheckM. This species is placed in the genus Wolframiiraptor, in the family Wolframiiraptoraceae, based on phylogenomic analysis of 122 conserved archaeal marker sequences. ANI values among members of the species range between 97 and 100 %, with comparisons with other members of the genus resulting in values below 80 %.
Classification
Incertae sedis (Archaea) » “Caldarchaeales” » Wolframiiraptoraceae » Wolframiiraptor » Wolframiiraptor sinensis
Parent
Wolframiiraptor

Genomics

Accession
NCBI Assembly: GCA_023261815.1
Type
Metagenome-Assembled Genome (MAG)
Estimated Quality Metrics
  • Completeness: 97.09%
  • Contamination: 0.0%
  • Quality: 97.09
Ribosomal and transfer RNA genes
  • 1 16S rRNA (up to 100.0%)
  • 2 23S rRNAs (up to 100.0%)
  • tRNAs for 19 amino acids
Sequencing depth
161.0 ×
Other features
  • G+C Content: 54.1%
  • Coding Density: 89.85%
  • Codon Table: 11
  • N50: 52,515 bp
  • Contigs: 33
  • Assembly Length: 1,180,670 bp
  • Ambiguous Assembly Fraction: 0.025%
Automated checks
Complete

Metadata

Outside links and data sources
Search sequences
Local history
Registered by
MarikePalmer over 1 year ago
Submitted by
MarikePalmer 9 months ago
Validated by
miguel 8 months ago

Publications (1)

Citation Title
Buessecker et al., 2022, Nature Communications An essential role for tungsten in the ecology and evolution of a previously uncultivated lineage of anaerobic, thermophilic Archaea
Proposed this name



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