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RNA Interference-Screening of Potentially Lethal Gene Targets in the White-Backed Planthopper <i>Sogatella furcifera</i> via a Spray-Induced and Nanocarrier-Delivered Gene Silencing System

Yunfeng Ma, Tingting Liu, Yaqin Zhao, Juan Luo, Hongyan Feng, Yang-Yuntao Zhou, Lang‐Lang Gong, Mengqi Zhang, Yin-yin He, J. Joe Hull, Youssef Dewer, Ming He, Peng He

2024Journal of Agricultural and Food Chemistry37 citationsDOI

Abstract

RNA interference (RNAi) is a widespread post-transcriptional silencing mechanism that targets homologous mRNA sequences for specific degradation. An RNAi-based pest management strategy is target-specific and considered a sustainable biopesticide. However, the specific genes targeted and the efficiency of the delivery methods can vary widely across species. In this study, a spray-induced and nanocarrier-delivered gene silencing (SI-NDGS) system that incorporated gene-specific dsRNAs targeting conserved genes was used to evaluate phenotypic effects in white-backed planthopper (WBPH). At 2 days postspraying, transcript levels for all target genes were significantly reduced and knockdown of two gene orthologs, hsc70-3 and PP-α, resulted in an elevated mortality (>60%) and impaired ecdysis. These results highlight the utility of the SI-NDGS system for identifying genes involved in WBPH growth and development that could be potentially exploitable as high mortality target genes to develop an alternative method for WBPH control.

Topics & Concepts

RNA interferenceGene knockdownPlanthopperGene silencingBiologyGeneRNA silencingGeneticsRNABotanyHemipteraInsect Resistance and GeneticsInsect-Plant Interactions and ControlInvertebrate Immune Response Mechanisms