Overview of organohalide-respiring bacteria and a proposal for a classification system for reductive dehalogenases
Copyright policy )Overview of organohalide-respiring bacteria and a proposal for a classification system for reductive dehalogenases
Organohalide respiration is an anaerobic bacterial respiratory process that uses halogenated hydrocarbons as terminal electron acceptors during electron transport-based energy conservation. This dechlorination process has triggered considerable interest for detoxification of anthropogenic groundwater contaminants. Organohalide-respiring bacteria have been identified from multiple bacterial phyla, and can be categorized as obligate and non-obligate organohalide respirers. The majority of the currently known organohalide-respiring bacteria carry multiple reductive dehalogenase genes. Analysis of a curated set of reductive dehalogenases reveals that sequence similarity and substrate specificity are generally not correlated, making functional prediction from sequence information difficult. In this article, an orthologue-based classification system for the reductive dehalogenases is proposed to aid integration of new sequencing data and to unify terminology.
- Helmholtz Centre for Environmental Research Germany
- University of Manchester United Kingdom
- University of Toronto Canada
- Oak Ridge National Laboratory United States
- University of Tennessee at Knoxville United States
vinyl-chloride reductase, Hydrocarbons, Halogenated, Hydrolases, complete genome sequence, Desulfitobacterium, strictly anaerobic bacterium, Substrate Specificity, Electron Transport, dehalospirillum-multivorans, Bacterial Proteins, Species Specificity, best-fit models, Genes, Bacterial, RNA, Ribosomal, 16S, Databases, Genetic, dehalococcoides sp strain, multiple sequence alignment, dehalobacter-re, desulfitobacterium-frappieri pcp-1, enrichment culture, Phylogeny
vinyl-chloride reductase, Hydrocarbons, Halogenated, Hydrolases, complete genome sequence, Desulfitobacterium, strictly anaerobic bacterium, Substrate Specificity, Electron Transport, dehalospirillum-multivorans, Bacterial Proteins, Species Specificity, best-fit models, Genes, Bacterial, RNA, Ribosomal, 16S, Databases, Genetic, dehalococcoides sp strain, multiple sequence alignment, dehalobacter-re, desulfitobacterium-frappieri pcp-1, enrichment culture, Phylogeny
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