Geueke_2013_Environ.Microbiol_15_1040

Reference

Title : Metabolomics of hexachlorocyclohexane (HCH) transformation: ratio of LinA to LinB determines metabolic fate of HCH isomers - Geueke_2013_Environ.Microbiol_15_1040
Author(s) : Geueke B , Garg N , Ghosh S , Fleischmann T , Holliger C , Lal R , Kohler HP
Ref : Environ Microbiol , 15 :1040 , 2013
Abstract :

Although the production and use of technical hexachlorocyclohexane (HCH) and lindane (the purified insecticidal isomer gamma-HCH) are prohibited in most countries, residual concentrations still constitute an immense environmental burden. Many studies describe the mineralization of gamma-HCH by bacterial strains under aerobic conditions. However, the metabolic fate of the other HCH isomers is not well known. In this study, we investigated the transformation of alpha-, beta-, gamma-, delta-, sigma-HCH, and a heptachlorocyclohexane isomer in the presence of varying ratios of the two enzymes that initiate gamma-HCH degradation, a dehydrochlorinase (LinA) and a haloalkane dehalogenase (LinB). Each substrate yielded a unique metabolic profile that was strongly dependent on the enzyme ratio. Comparison of these results to those of in vivo experiments with different bacterial isolates showed that HCH transformation in the tested strains was highly optimized towards productive metabolism of gamma-HCH and that under these conditions other HCH-isomers were metabolized to mixtures of dehydrochlorinated and hydroxylated side-products. In view of these results, bioremediation efforts need very careful planning and toxicities of accumulating metabolites need to be evaluated.

PubMedSearch : Geueke_2013_Environ.Microbiol_15_1040
PubMedID: 23121161

Related information

Citations formats

Geueke B, Garg N, Ghosh S, Fleischmann T, Holliger C, Lal R, Kohler HP (2013)
Metabolomics of hexachlorocyclohexane (HCH) transformation: ratio of LinA to LinB determines metabolic fate of HCH isomers
Environ Microbiol 15 :1040

Geueke B, Garg N, Ghosh S, Fleischmann T, Holliger C, Lal R, Kohler HP (2013)
Environ Microbiol 15 :1040