M.F. Wooder scite author profile

The chemical structure, reactivity and metabolic fate of the insecticide dichlorvos (2,2-dichlorovinyl dimethyl phosphate) are discussed in relation to the possible genotoxicity of this and other methyl phosphate triesters. Recent attempts to demonstrate the methylation of DNA following exposure of bacteria and animals to dichlorvos are reviewed. On the basis of comparative data relating mutagenesis to methylation reactions, it seems entirely appropriate to conclude that the mutagenicity of dichlorvos to bacteria is due solely to methylation of the bacterial DNA under the conditions of these tests. However, the methylation of mammalian DNA could not be demonstrated under realistic exposure conditions (when the alkylating mutagen methyl methanesulphonate afforded clearly measurable methylation). The failure to detect methylation by dichlorvos in vivo is attributed to the operation of highly efficient enzyme-catalysed biotransformations which rely largely on the phosphorylating reactivity of dichlorvos. The biotransformation pathways, characterised mostly in the rat, appear to be common also to pig, mouse, hamster, and man.

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Studies on the interactions of dieldrin with mammalian liver cells at the subcellular level

Wright

Akintonwa

Wooder

1977

Ecotoxicology and Environmental Safety

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The effects of dieldrin on the subcellular structure and function of mammalian liver cells

Wright

Potter

Wooder

et al. 1972

Food and Cosmetics Toxicology

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Formulation effect on the dermal bioavailability of isothiazolone biocide

Jayjock

Hazelton

Lewls³

et al. 1996

Food and Chemical Toxicology

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In vivo alkylation studies with dichlorvos at practical use concentrations

Wooder

Wright

King

1977

Chemico-Biological Interactions

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M.F. Wooder

The chemical and biochemical reactivity of dichlorvos

Studies on the interactions of dieldrin with mammalian liver cells at the subcellular level

The effects of dieldrin on the subcellular structure and function of mammalian liver cells

Formulation effect on the dermal bioavailability of isothiazolone biocide

In vivo alkylation studies with dichlorvos at practical use concentrations

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