Project description:Sulfur- and hydrogen-oxidizing thermophile

Project description:Hydrogen-oxidizing thermophile

Project description:Carbon monoxide-oxidizing thermophile

Project description:We describe the complete genome sequences of four closely related Hydrogenobaculum sp. isolates (? 99.7% 16S rRNA gene identity) that were isolated from the outflow channel of Dragon Spring (DS), Norris Geyser Basin, in Yellowstone National Park (YNP), WY. The genomes range in size from 1,552,607 to 1,552,931 bp, contain 1,667 to 1,676 predicted genes, and are highly syntenic. There are subtle differences among the DS isolates, which as a group are different from Hydrogenobaculum sp. strain Y04AAS1 that was previously isolated from a geographically distinct YNP geothermal feature. Genes unique to the DS genomes encode arsenite [As(III)] oxidation, NADH-ubiquinone-plastoquinone (complex I), NADH-ubiquinone oxidoreductase chain, a DNA photolyase, and elements of a type II secretion system. Functions unique to strain Y04AAS1 include thiosulfate metabolism, nitrate respiration, and mercury resistance determinants. DS genomes contain seven CRISPR loci that are almost identical but are different from the single CRISPR locus in strain Y04AAS1. Other differences between the DS and Y04AAS1 genomes include average nucleotide identity (94.764%) and percentage conserved DNA (80.552%). Approximately half of the genes unique to Y04AAS1 are predicted to have been acquired via horizontal gene transfer. Fragment recruitment analysis and marker gene searches demonstrated that the DS metagenome was more similar to the DS genomes than to the Y04AAS1 genome, but that the DS community is likely comprised of a continuum of Hydrogenobaculum genotypes that span from the DS genomes described here to an Y04AAS1-like organism, which appears to represent a distinct ecotype relative to the DS genomes characterized.

Project description:Comparative proteomic study of the chemolithoautotroph Ghiorsea bivora strain TAG-1. This strain was grown under two different conditions: hydrogen-oxidizing (H2 as electron donor) and iron-oxidizing (ferrous iron as electron donor). TAG-1 was grown in microaerobic conditions.

Project description:A thermophilic hydrogen-oxidizing microaerophile.

Project description:Anaerobic thermophile

Project description:Moderate thermophile

Project description:Photosynthetic thermophile

Project description:Hydrogenobaculum sp. 3684 genome sequencing project