具有对薄荷烷系统的外消旋和旋光性羟基内酯的合成及拒食活性

Synthesis and Antifeedant Activity of Racemic and Optically Active Hydroxy Lactones with the p-Menthane System.

作者信息

Grudniewska Aleksandra, Kłobucki Marek, Dancewicz Katarzyna, Szczepanik Maryla, Gabryś Beata, Wawrzeńczyk Czesław

机构信息

Department of Chemistry, Wrocław University of Environmental and Life Sciences, Wrocław, Poland.

Department of Biology and Ecology, University of Zielona Góra, Zielona Góra, Poland.

出版信息

PLoS One. 2015 Jul 1;10(7):e0131028. doi: 10.1371/journal.pone.0131028. eCollection 2015.

DOI:10.1371/journal.pone.0131028

PMID:26132506

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4488555/

Abstract

Two racemic and two enantiomeric pairs of new δ-hydroxy-γ-lactones based on the p-menthane system were prepared from racemic and optically active cis- and trans-piperitols. The Johnson-Claisen rearrangement of the piperitols, epoxidation of the γδ-unsaturated esters, and acidic lactonization of the epoxy esters were described. The structures of the compounds were confirmed spectroscopically. The antifeedant activities of the hydroxy lactones and racemic piperitone were evaluated against three insect pests: lesser mealworm, Alphitobius diaperinus (Panzer); Colorado potato beetle, Leptinotarsa decemlineata (Say); and peach-potato aphid, Myzus persicae (Sulz.). The chemical transformation of piperitone by the introduction of a lactone moiety and a hydroxy group changed its antifeedant properties. Behavioral bioassays showed that the feeding deterrent activity depended on the insect species and the structure of the compounds. All hydroxy lactones deterred the settling of M. persicae. Among chewing insects, the highest sensitivity showed A. diaperinus adults.

摘要

基于对薄荷烷体系，由外消旋和旋光性的顺式及反式胡椒醇制备了两对新的外消旋体和两对对映体δ-羟基-γ-内酯。描述了胡椒醇的约翰逊-克莱森重排、γδ-不饱和酯的环氧化以及环氧酯的酸性内酯化反应。通过光谱法确认了化合物的结构。评估了羟基内酯和外消旋胡椒酮对三种害虫的拒食活性：黄粉虫，赤拟谷盗（Panzer）；马铃薯甲虫，马铃薯甲虫（Say）；桃蚜，桃蚜（Sulz.）。通过引入内酯部分和羟基对胡椒酮进行化学转化改变了其拒食特性。行为生物测定表明，取食抑制活性取决于昆虫种类和化合物结构。所有羟基内酯都能阻止桃蚜的定居。在咀嚼式昆虫中，赤拟谷盗成虫表现出最高的敏感性。

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具有对薄荷烷系统的外消旋和旋光性羟基内酯的合成及拒食活性

Synthesis and Antifeedant Activity of Racemic and Optically Active Hydroxy Lactones with the p-Menthane System.

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