Key Laboratory of Entomology and Pest Control Engineering, College of Plant Protection, Southwest University, Chongqing, China.
Academy of Agricultural Sciences, Southwest University, Chongqing, China.
Pest Manag Sci. 2018 Dec;74(12):2680-2687. doi: 10.1002/ps.5071. Epub 2018 Jul 24.
Mites comprise a group of key agricultural pests on a wide range of crops. They cause harm through feeding on the plant and transferring dangerous pathogens, and the rapid evolution of pesticide resistance in mites highlights the need for novel control methods. Currently, RNA interference (RNAi) shows great potential for insect pest control. Here, we review the literature regarding RNAi in mite pests. We discuss different target genes and RNAi efficiency in various mite species, a promising Varroa control program using RNAi, the synergy of RNAi with plant defense mechanisms and microorganisms, and current understanding of systemic movement of double-stranded RNA (dsRNA). On the basis of this evidence, we can conclude that there is clear potential for application of RNAi-based mite control, but further research on several aspects of RNAi in mites is needed, including: (i) the factors influencing RNAi efficiency, (ii) the mechanism of environmental RNAi and cross-kingdom dsRNA trafficking, (iii) the mechanism of possible systemic and parental RNAi, and (iv) non-target effects, specifically in predatory mites, which should be considered during RNAi target selection. © 2018 Society of Chemical Industry.
螨是广泛作物上的一类重要农业害虫。它们通过取食植物和传播危险病原体造成危害,螨对杀虫剂的快速进化抗性凸显了对新型控制方法的需求。目前,RNA 干扰(RNAi)在昆虫害虫防治方面显示出巨大的潜力。在这里,我们回顾了关于螨类害虫 RNAi 的文献。我们讨论了不同螨种的不同靶基因和 RNAi 效率、利用 RNAi 控制瓦螨的有前景的方案、RNAi 与植物防御机制和微生物的协同作用,以及双链 RNA(dsRNA)系统运动的当前认识。有了这些证据,我们可以得出结论,基于 RNAi 的螨类控制具有明显的应用潜力,但需要进一步研究螨类中 RNAi 的几个方面,包括:(i)影响 RNAi 效率的因素,(ii)环境 RNAi 和跨王国 dsRNA 运输的机制,(iii)可能的系统性和母体 RNAi 的机制,以及(iv)非靶标效应,特别是在捕食性螨类中,在选择 RNAi 靶标时应考虑这些效应。© 2018 英国化学学会。
