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棉蚜对噻虫嗪敏感和抗性品系中细胞色素 P450 基因表达谱的变化。

Expression profile changes of cytochrome P450 genes between thiamethoxam susceptible and resistant strains of Aphis gossypii Glover.

机构信息

College of Plant Science, Jilin University, Changchun 130062, PR China.

Department of Entomology, China Agricultural University, Beijing 100193, PR China.

出版信息

Pestic Biochem Physiol. 2018 Jul;149:1-7. doi: 10.1016/j.pestbp.2018.05.007. Epub 2018 May 17.

DOI:10.1016/j.pestbp.2018.05.007
PMID:30033005
Abstract

Cytochrome P450 monooxygenases represent a key detoxification mechanism in neonicotinoids resistance in Aphis gossypii Glover. Synergism analysis has indicates that P450s are involved in thiamethoxam resistance. In this study, expression changes in the transcripts of P450 genes were determined in thiamethoxam-susceptible and thiamethoxam-resistant strains. Nine P450 genes in CYP3 clade were significantly overexpressed in the resistant strain (especially CYP6CY14, which was increased 17.67-fold) compared with the susceptible strain. Transcripts of ecdysone synthesis-related P450 genes, including CYP302A1, CYP306A1, CYP307A1 and CYP315A1, were up-regulated in the resistant strain, which may accelerate molting hormone production. The ecdysone response genes (ecdysone receptor (EcR), ultra-spiracle (USP) and Broad-complex protein (Br-C)) were overexpressed in the resistant strain. RNA interference (RNAi) targeting CYP6CY14 significantly increased the sensitivity of the resistant aphid to thiamethoxam. The results of the present study indicate the possible involvement of these P450 genes in thiamethoxam resistance. Our findings may facilitate further work to validate the roles of these P450s in thiamethoxam resistance based on heterologous expression, and show that screening the expression changes in P450 genes can reveal the impact of thiamethoxam on ecdysone synthesis-related P450 genes. These results are useful for understanding the mechanism of thiamethoxam resistance and will contribute to the management of insecticide-resistant cotton aphids in China.

摘要

细胞色素 P450 单加氧酶代表了棉蚜对新烟碱类杀虫剂产生抗性的关键解毒机制。协同作用分析表明,P450 参与了噻虫嗪的抗性。在本研究中,测定了噻虫嗪敏感和抗性品系中 P450 基因的转录物表达变化。在抗性品系中,CYP3 类群的 9 个 P450 基因显著过表达(特别是 CYP6CY14,增加了 17.67 倍),与敏感品系相比。蜕皮激素合成相关的 P450 基因,包括 CYP302A1、CYP306A1、CYP307A1 和 CYP315A1 的转录物在抗性品系中上调,这可能加速蜕皮激素的产生。蜕皮激素反应基因(蜕皮激素受体(EcR)、超气门(USP)和广泛复合物蛋白(Br-C))在抗性品系中过表达。针对 CYP6CY14 的 RNA 干扰(RNAi)显著增加了抗性蚜虫对噻虫嗪的敏感性。本研究结果表明,这些 P450 基因可能参与了噻虫嗪的抗性。我们的研究结果可能有助于进一步验证这些 P450s 在噻虫嗪抗性中的作用,基于异源表达,并表明筛选 P450 基因的表达变化可以揭示噻虫嗪对蜕皮激素合成相关 P450 基因的影响。这些结果有助于了解噻虫嗪抗性的机制,并将有助于中国对杀虫剂抗性棉蚜的管理。

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