Mandipropamid (MDP) is a widely used
chiral fungicide to control
oomycete pathogens with two enantiomers. In this study, the enantioselective
bioactivity, toxicity, and degradation of MDP were investigated for
the first time. The bioactivity of S-MDP was 118–592 times higher than that of R-MDP
and 1.14–1.67 times higher than that of Rac-MDP against six phytopathogens. Molecular docking found
that S-MDP formed a strong halogen bond with HIS
693 of cellulose synthase and possessed a lower binding energy, which
validated the results of the bioactivity assay. S-MDP showed lower toxicity toward Spirodela polyrhiza, while it exhibited higher toxicity in Danio rerio embryo and larva. S-MDP preferentially degraded
in cowpea and pepper, while R-MDP preferentially
degraded in soil. There is no significant difference between the two
enantiomers in the toxicity of adult D. rerio and in cucumber degradation. Therefore, the development of the S-enantiomer was considered as a better option to exhibit
high efficiency, which could reduce the residual risk of the pesticide
and ensure environmental safety.
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