Genome sequences for six Rhodanobacter strains isolated from soils and the terrestrial subsurface with variable denitrification capabilities
journal contribution
posted on 2013-12-05, 00:00 authored by Joel E. Kostka, Stefan J. Green, Lavanya Rishishwar, Om Prakash, Lee S. Katz, Leonardo Mariño-Ramirez, I. King Jordan, Christine Munk, Natalia Ivanova, Natalia Mikhailova, David B. Watson, Steven D. Brown, Anthony V. Palumbo, Scott C. BrooksWe report the first genome sequences for six strains of Rhodanobacter species isolated from a variety of soil and subsurface environments. Three of these strains are capable of complete denitrification and three others are not. However, all six strains contain most of the genes required for the respiration of nitrate to gaseous nitrogen. The nondenitrifying members of the genus lack only the gene for nitrate reduction, the first step in the full denitrification pathway. The data suggest that the environmental role of bacteria from the genus Rhodanobacter should be reevaluated.
Funding
This research was supported by the Office of Science (BER), U.S. Department of Energy grants no. DE-FG02-07ER64373, -97ER62469 and -97ER64398
History
Publisher Statement
Post print version of article may differ from published version. The definitive version is available through American Society for Microbiology at DOI:10.1128/JB.00871-12Citation
Kostka, J. E. Green, S. J. Rishishwar, L. Prakash, O. Katz, L. S. Marino-Ramirez, L. Jordan, I. K. Munk, C. Ivanova, N. Mikhailova, N. Watson, D. B. Brown, S. D. Palumbo, A. V. Brooks, S. C.Genome Sequences for Six Rhodanobacter Strains, Isolated from Soils and the Terrestrial Subsurface, with Variable Denitrification Capabilities. Journal of Bacteriology. 2012;194(16):4461-4462.Publisher
American Society for MicrobiologyLanguage
- en_US
issn
0021-9193Issue date
2012-08-01Usage metrics
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