articleProceedings of the National Academy of SciencesApr 26, 2010Closed access

Nitrosopumilus maritimus genome reveals unique mechanisms for nitrification and autotrophy in globally distributed marine crenarchaea

CBC. B. WalkerJRJosé R. de la TorreMGMartin G. KlotzHUHidetoshi UrakawaNPNicolás Pinel

University of Washington · Geosyntec Consultants (United States) · +14 more institutions

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Abstract

Ammonia-oxidizing archaea are ubiquitous in marine and terrestrial environments and now thought to be significant contributors to carbon and nitrogen cycling. The isolation of Candidatus "Nitrosopumilus maritimus" strain SCM1 provided the opportunity for linking its chemolithotrophic physiology with a genomic inventory of the globally distributed archaea. Here we report the 1,645,259-bp closed genome of strain SCM1, revealing highly copper-dependent systems for ammonia oxidation and electron transport that are distinctly different from known ammonia-oxidizing bacteria. Consistent with in situ isotopic studies of marine archaea, the genome sequence indicates N. maritimus grows autotrophically using a variant of…

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Topics & keywords

Topics
Keywords
  • Archaea
  • Biology
  • Autotroph
  • Nitrogen cycle
  • Biogeochemical cycle
  • Organism
  • Bacteria
  • Biochemistry
UN Sustainable Development Goals
  • Life below water
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