Discovery of Enantiopure (S)-Methoprene Derivatives as Potent Biochemical Pesticide Candidates

对映体药物 甲基戊烯 杀虫剂 化学 药理学 毒理 生物化学 生物 保幼激素 农学 激素 对映选择合成 催化作用
作者
Zhongwei Wu,Chunwen Ye,Zhong-Tian Ye,Xue‐Xin Zhang,Qinyu Zhang,Ying Zhang,Jian Zhou,Heng E. M. Su,Xiao-Yong Chen,Tianyun Su,Jin‐Sheng Yu,Xuhong Qian
出处
期刊:Journal of Agricultural and Food Chemistry [American Chemical Society]
卷期号:72 (45): 24979-24988 被引量:2
标识
DOI:10.1021/acs.jafc.4c05795
摘要

(S)-Methoprene has been widely applied as a powerful biochemical pesticide to control disease vectors and other pestiferous arthropods of economic importance. As a juvenile hormone analogue, many products based on (S)-methoprene are developed and commercialized in the USA, Europe, and elsewhere. However, the agricultural use of (S)-methoprene and its analogues remains underexplored. Here, based on an intermediate derivatization strategy and structural modification, a series of enantiopure (S)-methoprene derivatives were designed for their expected bioactivity against two crop-threatening pests. Six compounds showed more than 2-fold stronger inhibition of emergence against Plutella xylostella than (S)-methoprene, among which one that was designated as B2 showed even superior activity to the conventional chemical pesticide and biopesticide with IE50 of 0.02 mg/L. Nine compounds exhibited over 2-fold higher bioactivity against Aphis craccivora growth than (S)-methoprene. The physicochemical property evaluation and toxicological test showed that the potent (S)-methoprene derivatives were low toxic to the nontarget organism and the environment. Molecular docking studies further demonstrated that the high bioactivity of B2 may be partially attributed to its great affinity for binding to juvenile hormone receptors of P. xylostella. The current study suggests that B2 is a biochemical pesticide candidate with potency to be developed as a new agrochemical for lepidopteran control.
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