麦格雷戈氏（昆虫）对螺螨酯田间抗性的生化与分子分析

Biochemical and Molecular Analysis of Field Resistance to Spirodiclofen in (McGregor).

作者信息

Cheng Lu-Yan, Hou Dong-Yuan, Sun Qin-Zhe, Yu Shi-Jiang, Li Si-Chen, Liu Hao-Qiang, Cong Lin, Ran Chun

机构信息

Citrus Research Institute, Southwest University/Chinese Academy of Agricultural Sciences, National Engineering Research Center for Citrus, Chongqing 400712, China.

Key Laboratory of Entomology and Pest Control Engineering, College of Plant Protection, Southwest University, Chongqing 400716, China.

出版信息

Insects. 2022 Nov 2;13(11):1011. doi: 10.3390/insects13111011.

DOI:10.3390/insects13111011

PMID:36354837

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9696244/

Abstract

Spirodiclofen is one of the most widely used acaricides in China. The citrus red mite, (McGregor) (Acari: Tetranychidae), is one of the most destructive citrus pests worldwide and has developed a high resistance to spirodiclofen. However, the molecular mechanism of spirodiclofen resistance in is still unknown. In this study, we identified a field spirodiclofen-resistant strain (DL-SC) that showed 712-fold resistance to spirodiclofen by egg bioassay compared to the susceptible strain. Target-site resistance was not detected as non-synonymous mutations were not found by amplification and sequencing of the gene of resistant and susceptible strains; in addition, the mRNA expression levels of were similar in both resistant and susceptible strains. The activity of detoxifying enzymes P450s and CCEs in the resistant strain was significantly higher than in the susceptible strain. The transcriptome expression data showed 19 xenobiotic metabolisms genes that were upregulated. Stage-specific expression profiling revealed that the most prominent upregulated gene, in transcriptome data was significantly higher in resistant strains in all stages. Furthermore, functional analysis by RNAi indicated that the mortality caused by spirodiclofen was significantly increased by silencing the P450 gene The current results suggest that overexpression of the P450 gene, , may be involved in spirodiclofen resistance in .

摘要

螺螨酯是中国使用最广泛的杀螨剂之一。柑橘全爪螨（McGregor）（蜱螨目：叶螨科）是全球最具破坏性的柑橘害虫之一，并且已对螺螨酯产生了高抗性。然而，柑橘全爪螨对螺螨酯抗性的分子机制仍不清楚。在本研究中，我们鉴定出一个田间螺螨酯抗性品系（DL-SC），通过卵生物测定法，该品系对螺螨酯的抗性相较于敏感品系表现出712倍的抗性。通过对抗性和敏感品系的基因进行扩增和测序，未发现非同义突变，因此未检测到靶标位点抗性；此外，抗性和敏感品系中该基因的mRNA表达水平相似。抗性品系中解毒酶P450和羧酸酯酶（CCEs）的活性显著高于敏感品系。转录组表达数据显示有19个外源物代谢基因上调。阶段特异性表达谱分析表明，转录组数据中上调最显著的基因，在抗性品系的所有阶段均显著更高。此外，通过RNA干扰进行的功能分析表明，通过沉默P450基因，螺螨酯引起的死亡率显著增加。目前的结果表明，P450基因的过表达可能参与了柑橘全爪螨对螺螨酯的抗性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0cc8/9696244/31d52a601c4f/insects-13-01011-g001.jpg

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麦格雷戈氏（昆虫）对螺螨酯田间抗性的生化与分子分析

Biochemical and Molecular Analysis of Field Resistance to Spirodiclofen in (McGregor).

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