As mutation causes many life-threatening diseases including cancer, a diet enriched with specific vegetables having potential to reduce mutagenesis possesses immense significance. In this study, 41 commonly used vegetables from diverse botanical taxa were evaluated and compared for their relative antimutagenic potential using standard assays [Escherichia coli RNA polymerase β (rpoB)-based Rif(S) → Rif(R) assay and Ames test] against known mutagens (UV, gamma radiation, 4-nitroquinoline-N-oxide and ethylmethanesulphonate). Significant differences in antimutagenicity were observed even among the cultivars within the same species, as well as at other phylogenetic levels such as genus or family. The effect of cooking in terms of boiling (aquathermal treatment), on the antimutagenicity of these vegetables, was also investigated. In majority of the cases, aquathermal treatment did not affect the antimutagenic potential. The antimutagenicity of these vegetables was not found to correlate well with their antioxidant properties.
This study aims to understand variations in antimutagenic potential of vegetables, as observed in reduction of UV-induced mutation (Rif(S)→Rif(R)) in Escherichia coli cells. On further investigation, the juice of vegetables [eggplant (small-violet), pepper (hot Arbol), bean (French), and tomato] was found to suppress mutagenic SOS response as measured by cell filamentation, LexA degradation, and induction of defective prophage as per their antimutagenic potential. Cell filamentation which was observed in 25 and 60% of the UV- and gamma-induced cells, reduced to 2-8%, and 3-16%, respectively in the presence of the vegetable juice; moreover, LexA was also not significantly affected. Phage induction frequency reduced upto 76% compared to control UV-exposed cells. The antimutagenic effect was found to be partially dependent on recB, ruvB gene functions, and was independent of uvrA function. Phenolic compounds were found to be the major contributors to the observed antimutagenicity.
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