National Key Laboratory of Crop Genetic Improvement, National Centre of Plant Gene Research, Wuhan, China.
College of Plant Science and Technology, Huazhong Agricultural University, Wuhan, China.
Pest Manag Sci. 2020 Jul;76(7):2483-2489. doi: 10.1002/ps.5789. Epub 2020 Feb 24.
Although the utility of double-stranded RNA (dsRNA)-mediated knockdown as an environmentally friendly pest management strategy has gained traction in recent years, its overall efficacy has been limited by poor stability and limited cellular uptake. Encapsulation of dsRNAs with various nanomaterials, however, has shown promise in overcoming these limitations. This study sought to investigate the biological efficacy of an oral dsRNA nanomaterial mixture targeting the CYP15C1 gene product in the economically important rice pest, Chilo suppressalis.
A putative CYP15C1 ortholog was cloned from C. suppressalis midguts. The transcript is downregulated in fifth-instar larvae and is most highly expressed in heads. RNA interference (RNAi)-mediated knockdown of CsCYP15C1 was associated with significantly increased mortality. More importantly, feeding a dsRNA-nanomaterial mixture significantly increased larval mortality compared with feeding dsRNA alone.
A critical role for CsCYP15C1 function in molting is supported by sequence similarity with known juvenile hormone epoxidases, its expression profile, and abnormal molting phenotypes associated with RNA-mediated knockdown. CsCYP15C1 is thus a prime target for controlling C. suppressalis. Furthermore, RNAi-mediated characterization of candidate gene function can be enhanced by incorporating an enveloping nanomaterial. © 2020 Society of Chemical Industry.
尽管双链 RNA (dsRNA)介导的基因敲低作为一种环保的害虫管理策略,近年来已受到关注,但由于其稳定性差和细胞摄取有限,其整体效果受到限制。然而,用各种纳米材料包裹 dsRNA 已显示出克服这些限制的潜力。本研究旨在研究针对经济重要的水稻害虫二化螟 CYP15C1 基因产物的口服 dsRNA 纳米材料混合物的生物学功效。
从二化螟中肠克隆出一个假定的 CYP15C1 直系同源物。该转录物在五龄幼虫中下调,在头部表达最高。CYP15C1 的 RNA 干扰 (RNAi) 介导的敲低与死亡率显著增加有关。更重要的是,与单独喂食 dsRNA 相比,喂食 dsRNA 纳米材料混合物显著增加了幼虫死亡率。
与已知的保幼激素环氧酶的序列相似性、其表达谱以及与 RNA 介导的敲低相关的异常蜕皮表型支持 CsCYP15C1 在蜕皮中的关键作用。因此,CsCYP15C1 是控制二化螟的主要靶标。此外,通过结合包封纳米材料,可以增强 RNAi 介导的候选基因功能的表征。© 2020 化学工业协会。
