Design, Synthesis and Structure-Activity Relationship of Novel Aphicidal Mezzettiaside-Type Oligorhamnosides and Their Analogues

Hui Zhao; Zhuwen Wei; Zhiyan Jiang; Sumei Li; Yixian Liao; Yiming Guo; Yongmei Tang; Weihao Chen; Guohua Zhong; Gaopeng Song

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Design, Synthesis and Structure-Activity Relationship of Novel Aphicidal Mezzettiaside-Type Oligorhamnosides and Their Analogues

机译：新型杀蚜剂美甲菊苷型低聚鼠李糖苷及其类似物的设计，合成及构效关系

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Oligosaccharides have been used for an environmentally friendly insect control in the agricultural industry. In order to discover novel eco-friendly pesticides, a series of partially acetylated oligorhamnoses mezzettiasides, 2–8, and their analogues, 9–14, with biosurfactant characteristics were designed and synthesized, some of which exhibited comparable to or even stronger aphicidal activity than pymetrozine. Preliminary SAR studies demonstrated that the aphicidal activity of mezzettiasides analogs is highly dependent on their structures, including both the sugar length and the substitutes on the sugar. Among them, trirhamnolipid 9 displayed the strongest aphicidal activity, with an LC50 of 0.019 mmol/L, indicating that the biosurfactant 9 may have potential for use as an environmentally friendly agricultural pesticide.

机译：低聚糖已被用于农业工业中的环境友好的昆虫防治。为了发现新型的生态友好型农药，设计并合成了一系列具有生物表面活性剂特征的部分乙酰化的低聚羊驼毛（2-8）及其类似物（9-14），其中一些具有比甚至更强的杀蚜活性吡me嗪SAR的初步研究表明，美甲etti类似物的杀蚜活性在很大程度上取决于其结构，包括糖长和糖上的替代物。其中，鼠李糖脂9表现出最强的杀菌活性，LC50为0.019 mmol / L，表明该生物表面活性剂9可能具有用作环境友好型农业农药的潜力。

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《Molecules》 |2018年第1期|共18页
作者
Hui Zhao; Zhuwen Wei; Zhiyan Jiang; Sumei Li; Yixian Liao; Yiming Guo; Yongmei Tang; Weihao Chen; Guohua Zhong; Gaopeng Song;
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入库时间 2022-08-18 19:01:19

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Design, Synthesis and Structure-Activity Relationship of Novel Aphicidal Mezzettiaside-Type Oligorhamnosides and Their Analogues

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