State Key Laboratory for Biology of Plant Diseases and Insect Pests , Institute of Plant Protection, Chinese Academy of Agricultural Sciences , Beijing 100193 , P. R. China.
State Key Laboratory of Integrated Management of Pest Insects and Rodents , Institute of Zoology, Chinese Academy of Sciences , Beijing 100101 , P. R. China.
J Agric Food Chem. 2019 Oct 16;67(41):11331-11339. doi: 10.1021/acs.jafc.9b03848. Epub 2019 Oct 4.
Chiral pesticides are often produced and applied without distinguishing the difference of enantiomers, which sometimes leads to overuse and inaccurate risk assessment. Imazalil is a widely used chiral fungicide; its parent and major metabolite R14821 (imazalil-M) are usually detected in environmental and plant samples. The enantioselective bioactivity of imazalil enantiomers to seven typical pathogens (e.g., ) was explored. -(+)-Imazalil showed 3.00-6.59 times higher bioactivity than its antipode for selected pathogens. Molecular docking partly explained the mechanism of enantioselectivity in bioactivity. -(+)-Imazalil had a stronger hydrophobic interaction and lower energy conformation with binding sites than -(-)-imazalil. The acute toxicity of -(+)-imazalil was 1.23-fold and 2.25-fold more than -(-)-imazalil to and , respectively. And, -(+)-imazalil-M had 2.21-fold and 1.70-fold higher toxicity than -(-)-imazalil-M to and , respectively. However, -(-)-imazalil was 1.21 times more toxic than -(+)-imazalil to . The enantioselective dissipation of imazalil and imazalil-M was explored under greenhouse conditions. High-effective -(+)-imazalil preferentially enriched in leaf and fruit of tomato and cucumber, and no enantioselective degradation was found in soil. Imazalil-M enantiomers formed in cucumber, leaf of cucumber, and tomato, and the EF values fluctuated between 0.332 and 0.499. The results could provide information for more accurate assessment of imazalil; they implicated that using -(+)-imazalil could reduce pesticide input and the risk to .
手性农药在生产和应用过程中往往不区分对映体的差异,这有时导致过度使用和不准确的风险评估。咪鲜胺是一种广泛使用的手性杀菌剂;其母体和主要代谢物 R14821(咪鲜胺-M)通常在环境和植物样品中被检测到。本研究探索了咪鲜胺对映体对七种典型病原菌(如)的对映选择性生物活性。-(+)-咪鲜胺对选定病原菌的生物活性比其对映体高 3.00-6.59 倍。分子对接部分解释了生物活性中对映选择性的机制。-(+)-咪鲜胺与结合位点的疏水相互作用更强,能量构象更低。与-(-)-咪鲜胺相比,-(+)-咪鲜胺对和的急性毒性分别高 1.23 倍和 2.25 倍。而且,-(+)-咪鲜胺-M 对和的毒性分别比-(-)-咪鲜胺-M 高 2.21 倍和 1.70 倍。然而,-(-)-咪鲜胺对的毒性比-(+)-咪鲜胺高 1.21 倍。在温室条件下,研究了咪鲜胺和咪鲜胺-M 的对映体选择性消解。高效-(+)-咪鲜胺优先富集在番茄和黄瓜的叶片和果实中,在土壤中未发现对映体选择性降解。咪鲜胺-M 对映体在黄瓜、黄瓜叶片和番茄中形成,EF 值在 0.332 和 0.499 之间波动。这些结果可为更准确地评估咪鲜胺提供信息;它们暗示使用-(+)-咪鲜胺可以减少农药投入和对的风险。
