A korarchaeal genome reveals insights into the evolution of the Archaea

Anderson, Iain J; Elkins, James G; Podar, Mircea; Graham, David E; Makarova, Kira S; Wolf, Yuri; Randau, Lennart; Hedlund, Brian P; Brochier-Armanet, Celine; Kunin, Victor; Anderson, Iain; Lapidus, Alla; Goltsman, Eugene; Barry, Kerrie; Koonin, Eugene V; Hugenholtz, Phil; Kyrpides, Nikos; Wanner, Gerhard; Richardson, Paul; Keller, Martin; Stetter, Karl O

A korarchaeal genome reveals insights into the evolution of the Archaea

Journal Article · Thu Jun 05 00:00:00 EDT 2008 · Proceedings of the National Academy of Sciences

OSTI ID:934702

Anderson, Iain J; Elkins, James G; Podar, Mircea; Graham, David E; Makarova, Kira S; Wolf, Yuri; Randau, Lennart; Hedlund, Brian P; Brochier-Armanet, Celine; Kunin, Victor; Anderson, Iain; Lapidus, Alla; Goltsman, Eugene; Barry, Kerrie; Koonin, Eugene V; Hugenholtz, Phil; Kyrpides, Nikos; Wanner, Gerhard; Richardson, Paul; Keller, Martin more »

The candidate division Korarchaeota comprises a group of uncultivated microorganisms that, by their small subunit rRNA phylogeny, may have diverged early from the major archaeal phyla Crenarchaeota and Euryarchaeota. Here, we report the initial characterization of a member of the Korarchaeota with the proposed name,"Candidatus Korarchaeum cryptofilum," which exhibits an ultrathin filamentous morphology. To investigate possible ancestral relationships between deep-branching Korarchaeota and other phyla, we used whole-genome shotgun sequencing to construct a complete composite korarchaeal genome from enriched cells. The genome was assembled into a single contig 1.59 Mb in length with a G + C content of 49percent. Of the 1,617 predicted protein-coding genes, 1,382 (85percent) could be assigned to a revised set of archaeal Clusters of Orthologous Groups (COGs). The predicted gene functions suggest that the organism relies on a simple mode of peptide fermentation for carbon and energy and lacks the ability to synthesize de novo purines, CoA, and several other cofactors. Phylogenetic analyses based on conserved single genes and concatenated protein sequences positioned the korarchaeote as a deep archaeal lineage with an apparent affinity to the Crenarchaeota. However, the predicted gene content revealed that several conserved cellular systems, such as cell division, DNA replication, and tRNA maturation, resemble the counterparts in the Euryarchaeota. In light of the known composition of archaeal genomes, the Korarchaeota might have retained a set of cellular features that represents the ancestral archaeal form.

Research Organization:: Ernest Orlando Lawrence Berkeley National Laboratory, Berkeley, CA (US)

Sponsoring Organization:: Genomics Division

DOE Contract Number:: AC02-05CH11231

OSTI ID:: 934702

Report Number(s):: LBNL-438E

Journal Information:: Proceedings of the National Academy of Sciences, Journal Name: Proceedings of the National Academy of Sciences

Country of Publication:: United States

Language:: English

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Related Subjects

59 BASIC BIOLOGICAL SCIENCES
AFFINITY
CARBON
CELL DIVISION
CONTIGS
DNA REPLICATION
FERMENTATION
GENES
MICROORGANISMS
MORPHOLOGY
PEPTIDES
PROTEINS
PURINES
korarchaeota
archaea
evolution

A korarchaeal genome reveals insights into the evolution of the Archaea

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