Your search keyword '"Peptococcaceae classification"' showing total 3 results

1. Environmental genomics reveals a single-species ecosystem deep within Earth.

Author

Chivian D, Brodie EL, Alm EJ, Culley DE, Dehal PS, DeSantis TZ, Gihring TM, Lapidus A, Lin LH, Lowry SR, Moser DP, Richardson PM, Southam G, Wanger G, Pratt LM, Andersen GL, Hazen TC, Brockman FJ, Arkin AP, and Onstott TC

Subjects

Ammonia metabolism, Carbon metabolism, Genes, Bacterial, Gold, Mining, Molecular Sequence Data, Movement, Oxidation-Reduction, Peptococcaceae classification, Peptococcaceae growth & development, Peptococcaceae physiology, Phylogeny, Sequence Analysis, DNA, South Africa, Spores, Bacterial physiology, Sulfates metabolism, Temperature, Ecosystem, Genome, Bacterial, Genomics methods, Peptococcaceae genetics, Water Microbiology

Abstract

DNA from low-biodiversity fracture water collected at 2.8-kilometer depth in a South African gold mine was sequenced and assembled into a single, complete genome. This bacterium, Candidatus Desulforudis audaxviator, composes >99.9% of the microorganisms inhabiting the fluid phase of this particular fracture. Its genome indicates a motile, sporulating, sulfate-reducing, chemoautotrophic thermophile that can fix its own nitrogen and carbon by using machinery shared with archaea. Candidatus Desulforudis audaxviator is capable of an independent life-style well suited to long-term isolation from the photosphere deep within Earth's crust and offers an example of a natural ecosystem that appears to have its biological component entirely encoded within a single genome.

Published

2008

2. Microbial dehalorespiration with 1,1,1-trichloroethane.

Author

Sun B, Griffin BM, Ayala-del-Río HL, Hashsham SA, and Tiedje JM

Subjects

Anaerobiosis, Bacteria, Anaerobic classification, Bacteria, Anaerobic cytology, Bacteria, Anaerobic isolation & purification, Bacteria, Anaerobic metabolism, Base Composition, Biodegradation, Environmental, Culture Media, DNA, Ribosomal genetics, Electron Transport, Energy Metabolism, Ethyl Chloride metabolism, Formates metabolism, Hydrogen metabolism, Oxidation-Reduction, Peptococcaceae classification, Peptococcaceae cytology, Peptococcaceae growth & development, Phylogeny, RNA, Ribosomal, 16S genetics, Soil Microbiology, Temperature, Environmental Pollutants metabolism, Geologic Sediments microbiology, Peptococcaceae isolation & purification, Peptococcaceae metabolism, Trichloroethanes metabolism

Abstract

1,1,1-Trichloroethane (TCA) is a ubiquitous environmental pollutant because of its widespread use as an industrial solvent, its improper disposal, and its substantial emission to the atmosphere. We report the isolation of an anaerobic bacterium, strain TCA1, that reductively dechlorinates TCA to 1,1-dichloroethane and chloroethane. Strain TCA1 required H2 as an electron donor and TCA as an electron acceptor for growth, indicating that dechlorination is a respiratory process. Phylogenetic analysis indicated that strain TCA1 is related to gram-positive bacteria with low DNA G+C content and that its closest relative is Dehalobacter restrictus, an obligate H2-oxidizing, chloroethene-respiring bacterium.

Published

2002

3. Environment. Fishing for microbes.

Author

Gossett JM

Subjects

Bacteria, Anaerobic classification, Bacteria, Anaerobic isolation & purification, Bacteria, Anaerobic metabolism, Biodegradation, Environmental, Energy Metabolism, Hydrogen metabolism, Oxidation-Reduction, Peptococcaceae classification, Soil Microbiology, Water Microbiology, Environmental Pollutants metabolism, Geologic Sediments microbiology, Peptococcaceae isolation & purification, Peptococcaceae metabolism, Trichloroethanes metabolism

Published

2002