中国喙库蚊(双翅目:库蚊科)免疫适应分子MyD88的遗传特征。

Xueting Wang, Lilan Zhu, Caifei Huo, Dan He, Haifeng Tian, Xiaolan Fan, Yongqing Lyu, Yan Li
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引用次数: 0

摘要

库蚊(Cx. pipiens)复合体是严重疾病的传播媒介,包括由西尼罗河病毒引起的西尼罗河热、由日本脑炎病毒引起的日本脑炎,以及由盘尾丝虫引起的淋巴丝虫病。作为蚊子免疫系统的重要组成部分,Toll 通路参与应对蚊媒病原体和生物控制剂的感染。免疫相关分子的遗传多样性有望成为扩大我们对蚊子与微生物相互作用的认识的可行而有效的方法。然而,目前还缺乏对复合喙蚊 Toll 通路分子遗传特征的全面描述。本研究分析了蜱蚊复合体 MyD88(髓系分化主要反应蛋白 88)的遗传变化,作为该类群 Toll 通路分子的先例。MyD88 是从含 TIR 的受体向下游含死亡结构域的分子传递信号的通路的关键适配器。我们的研究结果表明,适应性选择影响了该分子的基因变化,加速了一些氨基酸位点的多样性。适应性选择的位点位于死亡结构域、中间结构域和 C 端延伸部分。基因变化的特点揭示了适应体在对抗外源挑战的军备竞赛中突出的分子级结构基础和参与策略。这一发现将有助于进一步探索和深入了解蚊子的媒介能力,促进生物控制剂的有效性和可持续性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic characterization of immune adaptor molecule MyD88 in Culex pipiens complex (Diptera: Culicidae) mosquitoes from China.

Mosquitoes of the Culex (Cx.) pipiens complex are vectors of severe diseases including West Nile fever by West Nile virus, Japanese encephalitis by Japanese encephalitis virus, and Lymphatic filariasis by filarial nematode Wuchereria bancrofti. As a major portion of mosquito immune system, the Toll pathway implicates in response against infections of mosquito-borne pathogens and biocontrol agents. The genetic diversity of immune-related molecules is expected to be a feasible and effective introduction to expand our knowledge of the mosquito-microbe interplay. However, a comprehensive description is currently lacking regarding the genetic characteristic of the Toll pathway molecules in Cx. pipiens complex mosquitoes. In the present study, genetic changes in Cx. pipiens complex MyD88 (Myeloid differentiation primary response protein 88) were analyzed as a precedent for the Toll pathway molecules in this taxon. MyD88 is a critical adaptor of the pathway transducing signals from TIR-containing receptors to downstream death domain-containing molecules. Our results revealed that adaptive selection has influenced the genetic changes of the molecule, giving rise to acceleration of diversity at a number of amino acid sites. The adaptively selected sites lie in the death domain, intermediate domain, and C-terminal extension. The characteristics of the genetic changes shed insights into the prominent molecular-level structural basis and the involvement strategy of the adaptor in the arms race against exogenous challenges. This finding would be beneficial for further exploration and deeper understanding of the mosquitoes' vectorial capacity and facilitating the effectiveness and sustainability of the biocontrol agents.

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