解开戈尔迪之结：GluCl3 I321T 突变在棉叶螨对阿维菌素抗性中的作用。

Untangling a Gordian knot: the role of a GluCl3 I321T mutation in abamectin resistance in Tetranychus urticae.

机构信息

Department of Plants and Crops, Faculty of Bioscience Engineering, Ghent University, Ghent, Belgium.

Institute of Molecular Biology & Biotechnology, Foundation for Research & Technology Hellas, Heraklion, Greece.

出版信息

Pest Manag Sci. 2021 Apr;77(4):1581-1593. doi: 10.1002/ps.6215. Epub 2020 Dec 26.

DOI:10.1002/ps.6215

PMID:33283957

Abstract

BACKGROUND

The cys-loop ligand-gated ion channels, including the glutamate-gated chloride channel (GluCl) and GABA-gated chloride channel (Rdl) are important targets for drugs and pesticides. The macrocyclic lactone abamectin primarily targets GluCl and is commonly used to control the spider mite Tetranychus urticae, an economically important crop pest. However, abamectin resistance has been reported for multiple T. urticae populations worldwide, and in several cases was associated with the mutations G314D in GluCl1 and G326E in GluCl3. Recently, an additional I321T mutation in GluCl3 was identified in several abamectin resistant T. urticae field populations. Here, we aim to functionally validate this mutation and determine its phenotypic strength.

RESULTS

The GluCl3 I321T mutation was introgressed into a T. urticae susceptible background by marker-assisted backcrossing, revealing contrasting results in phenotypic strength, ranging from almost none to 50-fold. Next, we used CRISPR-Cas9 to introduce I321T, G314D and G326E in the orthologous Drosophila GluCl. Genome modified flies expressing GluCl I321T were threefold less susceptible to abamectin, while CRISPRed GluCl G314D and G326E flies were lethal. Last, functional analysis in Xenopus oocytes revealed that the I321T mutation might reduce GluCl3 sensitivity to abamectin, but also suggested that all three T. urticae Rdls are affected by abamectin.

CONCLUSION

Three different techniques were used to characterize the role of I321T in GluCl3 in abamectin resistance and, combining all results, our analysis suggests that the I321T mutation has a complex role in abamectin resistance. Given the reported subtle effect, additional synergistic factors in resistance warrant more investigation. © 2020 Society of Chemical Industry.

摘要

背景

配体门控离子通道中的 cys 环，包括谷氨酸门控氯离子通道（GluCl）和 GABA 门控氯离子通道（Rdl），是药物和杀虫剂的重要靶标。大环内酯类农药阿维菌素主要靶向 GluCl，常用于防治重要经济作物害螨——二斑叶螨（Tetranychus urticae）。然而，全世界多个二斑叶螨种群已报道对阿维菌素产生了抗性，在一些情况下，这种抗性与 GluCl1 中的 G314D 和 GluCl3 中的 G326E 突变有关。最近，在几个对阿维菌素具有抗性的二斑叶螨田间种群中，又鉴定到 GluCl3 中的另外一个 I321T 突变。在这里，我们旨在对该突变进行功能验证并确定其表型强度。

结果

通过标记辅助回交将 GluCl3 I321T 突变导入二斑叶螨敏感背景中，表型强度差异明显，从几乎没有到 50 倍不等。接下来，我们使用 CRISPR-Cas9 在同源的果蝇 GluCl 中引入 I321T、G314D 和 G326E。表达 GluCl I321T 的基因组修饰果蝇对阿维菌素的敏感性降低了三倍，而 CRISPRed GluCl G314D 和 G326E 果蝇则致死。最后，在非洲爪蟾卵母细胞中的功能分析表明，I321T 突变可能降低 GluCl3 对阿维菌素的敏感性，但也表明所有三种二斑叶螨 Rdl 均受阿维菌素影响。

结论

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解开戈尔迪之结：GluCl3 I321T 突变在棉叶螨对阿维菌素抗性中的作用。

Untangling a Gordian knot: the role of a GluCl3 I321T mutation in abamectin resistance in Tetranychus urticae.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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