烟粉虱地中海（Q 型）对氟啶虫酰胺的抗药性特征。

Characterization of flupyradifurone resistance in the whitefly Bemisia tabaci Mediterranean (Q biotype).

机构信息

Institute of Plant and Environment Protection, Beijing Academy of Agriculture and Forestry Sciences, Beijing, China.

National Engineering Research Center of Sugarcane, Fujian Agricultural and Forestry University, Fuzhou, China.

出版信息

Pest Manag Sci. 2020 Dec;76(12):4286-4292. doi: 10.1002/ps.5995. Epub 2020 Aug 3.

DOI:10.1002/ps.5995

PMID:32652864

Abstract

BACKGROUND

Bemisia tabaci is one of most notorious pests on various crops worldwide and many populations show high resistance to different types of insecticides. Flupyradifurone is a novel insecticide against sucking pests. B. tabaci resistance to flupyradifurone has been detected in the field, however the mechanism of flupyradifurone resistance has rarely been studied.

RESULTS

The flupyradifurone-resistant strain (FLU-SEL) was selected from the susceptible strain of B. tabaci (MED-S) using flupyradifurone for 24 generations. The FLU-SEL strain exhibited 105.56-fold resistance to flupyradifurone, and moderate cross-resistance to imidacloprid, but no cross-resistance to other tested neonicotinoids. Synergism tests and metabolic enzyme assays suggested that FLU-SEL resistance can be attributed to enhanced detoxification mediated by glutathione S-transferase (GST) and P450 monooxygenase (P450). Compared with MED-S strain, CYP6CX4 and GSTs2 were significantly overexpressed in FLU-SEL, and silencing CYP6CX4 or GSTs2 increased the mortality of whiteflies to flupyradifurone challenge in FLU-SEL. In addition, silencing CYP6CX4 also increased the mortality of whiteflies exposed to imidacloprid.

CONCLUSION

Overexpression of CYP6CX4 and GSTs2 was associated with flupyradifurone resistance, as confirmed by RNA interference. Our findings suggested that metabolic resistance to flupyradifurone might be mediated by P450s and GSTs. © 2020 Society of Chemical Industry.

摘要

背景

烟粉虱是世界上各种作物上最臭名昭著的害虫之一，许多种群对不同类型的杀虫剂表现出高抗性。氟啶虫酰胺是一种新型的防治刺吸式害虫的杀虫剂。田间已检测到烟粉虱对氟啶虫酰胺的抗性，但对氟啶虫酰胺抗性的机制研究甚少。

结果

用氟啶虫酰胺对烟粉虱敏感品系（MED-S）连续筛选 24 代，选育出氟啶虫酰胺抗性品系（FLU-SEL）。FLU-SEL 对氟啶虫酰胺的抗性为 105.56 倍，对吡虫啉表现出中等程度的交互抗性，但对其他测试的新烟碱类杀虫剂没有交互抗性。增效作用试验和代谢酶测定表明，FLU-SEL 抗性可归因于谷胱甘肽 S-转移酶（GST）和细胞色素 P450 单加氧酶（P450）介导的解毒增强。与 MED-S 品系相比，FLU-SEL 中 CYP6CX4 和 GSTs2 显著过表达，沉默 CYP6CX4 或 GSTs2 可提高 FLU-SEL 对氟啶虫酰胺的死亡率。此外，沉默 CYP6CX4 也增加了烟粉虱对吡虫啉的死亡率。

结论

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烟粉虱地中海（Q 型）对氟啶虫酰胺的抗药性特征。

Characterization of flupyradifurone resistance in the whitefly Bemisia tabaci Mediterranean (Q biotype).

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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