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3-Substituted 2-halopropenals: mutagenicity, detoxification and formation from 3-substituted 2,3-dihalopropanal promutagens.

Mutation research (1985-10-01)
Y Segall, E C Kimmel, D R Dohn, J E Casida
RESUMEN

The mutagenicity of halopropenals for Salmonella typhimurium strain TA100 is as follows (revertants/nmole): 2-halopropenals [H2C = C(X)CHO], F = less than 0.6, Cl = 135, Br = 1140 and I = less than 2.4; 3-substituted-2-halopropenals [CH3CH = C(X)CHO], Cl = 68 and Br = 108; [C6H5CH = C(X)CHO], Cl = less than 1 and Br = 5; [ClCH = C(Cl)CHO], 91; [CH3(CH2)2CH = C(Br)CHO], less than 1; [(CH3)2C = C(Br)CHO], less than 0.5. Each of the active compounds is detoxified by the liver S9 fraction. Glutathione also detoxifies the 2-halopropenals and 2-halobutenals, more rapidly for the bromo than the chloro analogs. The mutagenic potency on metabolic activation of the herbicide diallate by microsomes or the S9 fraction is attributable to approximately 50% conversion to 2-chloropropenal when corrected for detoxification in these systems or with GSH. There is no correlation between mutagenicity and reactivity with the model thiol, 4-nitrobenzenethiol. The mutagenicity of 2,3-dichloro- and 2,3-dibromo-propanals and the corresponding dihalobutanals is accounted for by their rapid dehydrohalogenation to the corresponding 2-haloalkenals under physiological conditions. Chemicals that are metabolized to 2,3-dichloropropanal, 2,3-dichlorobutanal, their dibromo analogs, or to the corresponding 2-halopropenals and 2-halobutenals should therefore be considered as candidate promutagens.

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Sigma-Aldrich
4-Nitrothiophenol, technical grade, 80%