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Risk assessment, fitness cost, cross‐resistance, and mechanism of tetraniliprole resistance in the rice stem borer, Chilo suppressalis

二化螟 生物 清脆的 交叉电阻 拉伤 遗传学 毒理 有害生物分析 生物技术 褐飞虱 抗药性 杀虫剂 基因 植物 农学 幼虫 解剖
作者
Hao Sun,Shuai Wang,Chong Liu,Wen‐Kai Hu,Jin‐Wei Liu,Ling‐Jun Zheng,Meng‐Yue Gao,Fang‐Rui Guo,Song‐Tao Qiao,Junli Liu,Bo Sun,Cong‐Fen Gao,Shun‐Fan Wu
出处
期刊:Insect Science [Wiley]
卷期号:31 (3): 835-846 被引量:30
标识
DOI:10.1111/1744-7917.13282
摘要

Abstract The rice stem borer (RSB), Chilo suppressalis , a notorious rice pest in China, has evolved a high resistance level to commonly used insecticides. Tetraniliprole, a new anthranilic diamide insecticide, effectively controls multiple pests, including RSB. However, the potential resistance risk of RSB to tetraniliprole is still unknown. In this study, the tetraniliprole‐selection (Tet‐R) strain was obtained through 10 continuous generations of selection with tetraniliprole 30% lethal concentration (LC 30 ). The realized heritability ( h 2 ) of the Tet‐R strain was 0.387, indicating that resistance of RSB to tetraniliprole developed rapidly under the continuous selection of tetraniliprole. The Tet‐R strain had a high fitness cost (relative fitness = 0.53). We established the susceptibility baseline of RSB to tetraniliprole (lethal concentration at LC 50 = 0.727 mg/L) and investigated the resistance level of 6 field populations to tetraniliprole. All tested strains that had resistance to chlorantraniliprole exhibited moderate‐ to high‐level resistance to tetraniliprole (resistance ratio = 27.7−806.8). Detection of ryanodine receptor (RyR) mutations showed that the Y4667C, Y4667D, I4758M, and Y4891F mutations were present in tested RSB field populations. RyR mutations were responsible for the cross‐resistance between tetraniliprole and chlorantraniliprole. Further, the clustered regularly interspaced palindromic repeats (CRISPR) / CRISPR‐associated protein 9‐mediated genome‐modified flies were used to study the contribution of RyR mutations to tetraniliprole resistance. The order of contribution of a single RyR mutation to tetraniliprole resistance was Y4667D > G4915E > Y4667C ≈ I4758M > Y4891F. In addition, the I4758M and Y4667C double mutations conferred higher tetraniliprole resistance than single Y4667C mutations. These results can guide resistance management practices for diamides in RSB and other arthropods.
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