Department of Plant Protection, Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, Beijing, China.
Department of Entomology, University of Kentucky, Lexington, KY, USA.
Pest Manag Sci. 2022 Nov;78(11):5014-5023. doi: 10.1002/ps.7125. Epub 2022 Aug 30.
Plant viruses can facilitate their transmission by modulating the sex ratios of their insect vectors. Previously, we found that exposure to tomato spotted wilt orthotospovirus (TSWV) in the western flower thrips, Frankliniella occidentalis, led to a male-biased sex ratio in the offspring. TSWV, a generalist pathogen with a broad host range, is transmitted primarily by F. occidentalis in a circulative-propagative manner. Here, we integrated proteomic tools with RNAi to comprehensively investigate the genetic basis underlying the shift in vector sex ratio induced by the virus.
Proteomic analysis exhibited 104 differentially expressed proteins between F. occidentalis adult males with and without TSWV. The expression of the fiber sheath CABYR-binding-like (FSCB) protein, namely FoFSCB-like, a sperm-specific protein associated with sperm capacitation and motility, was decreased by 46%. The predicted FoFSCB-like protein includes 10 classic Pro-X-X-Pro motifs and 42 phosphorylation sites, which are key features for sperm capacitation. FoFSCB-like expression was gradually increased during the development and peaked at the pupal stage. After exposure to TSWV, FoFSCB-like expression was substantially down-regulated. Nanoparticle-mediated RNAi substantially suppressed FoFSCB-like expression and led to a significant male bias in the offspring.
These combined results suggest that down-regulation of FoFSCB-like in virus-exposed thrips leads to a male-biased sex ratio in the offspring. This study not only advances our understanding of virus-vector interactions, but also identifies a potential target for the genetic management of F. occidentalis, the primary vector of TSWV, by manipulating male fertility. © 2022 Society of Chemical Industry.
植物病毒可以通过调节其昆虫载体的性别比例来促进其传播。此前,我们发现番茄斑萎病毒(TSWV)暴露会导致西方花蓟马(Frankliniella occidentalis)的后代出现雄性偏性性别比。TSWV 是一种具有广泛宿主范围的专性病原体,主要通过西方花蓟马以循环增殖的方式传播。在这里,我们将蛋白质组学工具与 RNAi 整合在一起,全面研究病毒诱导的载体性别比变化的遗传基础。
蛋白质组分析显示,携带和不携带 TSWV 的西方花蓟马成虫之间有 104 种差异表达蛋白。纤维鞘 CABYR 结合样(FSCB)蛋白的表达降低了 46%,该蛋白是一种与精子获能和运动相关的精子特异性蛋白,即 FoFSCB-like。预测的 FoFSCB-like 蛋白包含 10 个经典的 Pro-X-X-Pro 基序和 42 个磷酸化位点,这些是精子获能的关键特征。FoFSCB-like 表达在发育过程中逐渐增加,并在蛹期达到峰值。暴露于 TSWV 后,FoFSCB-like 表达显著下调。纳米颗粒介导的 RNAi 可显著抑制 FoFSCB-like 表达,并导致后代出现明显的雄性偏性。
这些综合结果表明,暴露于病毒的蓟马中 FoFSCB-like 的下调导致后代出现雄性偏性性别比。这项研究不仅增进了我们对病毒-载体相互作用的理解,还通过操纵雄性生育能力,为西方花蓟马这一 TSWV 的主要载体的遗传管理提供了一个潜在的目标。
