Pre_GI: SWBIT SVG BLASTP

Query: NC_011901:837085 Thioalkalivibrio sulfidophilus HL-EbGr7 chromosome, complete

Lineage: Thioalkalivibrio sulfidophilus; Thioalkalivibrio; Ectothiorhodospiraceae; Chromatiales; Proteobacteria; Bacteria

General Information: Obligately chemolithoautotrophic, haloalkaliphilic, mesophilic, microaerophilic and sulfur-oxidizing bacterium. Uses CO2 as a carbon source and reduced inorganic sulfur compounds as an energy source. Utilizes ammonium and urea, but not nitrate or nitrite, as a N-source. Isolated from a full-scale Thiopaq bioreactor in the Netherlands used to remove H2S from biogas. Thioalkalivibrio species are commonly isolated from soda lakes and tend to dominate the microbial community of hypersaline soda lakes. These organisms have a pH optimum of 10 and are able to oxidize hydrogen sulfide to elemental sulfur. Thioalkalivibrio species have also been isolated from sulfide oxidizing bioreactors which remove sulfide from refinery and natural gas.

Subject: NC_011979:3712845 Geobacter sp. FRC-32, complete genome

Lineage: Geobacter daltonii; Geobacter; Geobacteraceae; Desulfuromonadales; Proteobacteria; Bacteria

General Information: This organism is able to reduce uranium and may be useful for in situ bioremediation of uranium. An iron(III)-reducing bacterium isolated from the uranium-contaminated subsurface of the U.S. Department of Energy NABIR Field Research Center (FRC), Oak Ridge, Tennessee, USA. Several recent studies have verified using cultivation-independent methods that the Geobacteraceae are predominant in subsurface environments where dissimilatory metal reduction is important to the remediation of uranium and other contaminants.