The I4790K mutation of the ryanodine receptor is responsible for anthranilic diamide resistance in field populations of Plutella xylostella (Lepidoptera: Plutellidae).

Rameshwor Pudasaini, Cheng Chang, Mu-Hsin Chen, Shu-Mei Dai
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Abstract

Insecticide resistance in Plutella xylostella (Linnaeus) (Lepidoptera: Plutellidae) is a major constraint on the global production of cruciferous crops. For effective management of insecticide resistance, it is necessary to develop a molecular detection tool for predicting insecticide resistance levels based on the mutation frequency of target sites. In this study, a susceptible strain (SHggt) of P. xylostella was subjected to chlorantraniliprole and tetraniliprole selection under laboratory conditions to obtain the CHLSel and TETSel strains, respectively, to determine their resistance development, cross-resistance and mutation frequencies of the P. xylostella ryanodine receptor (PxRyR). In addition, the tetraniliprole resistance and the mutation frequencies of the PxRyR from 7 field populations were evaluated. Continuous selection over 30 generations resulted in resistance ratios (RRs) of 7,073.2-fold and 6,971.0-fold for the CHLSel and TETSel strains, respectively, and thousandfold increases in cross-resistance to unexposed diamides, e.g., cyantraniliprole and flubendiamide, were observed. For the field populations, three out of seven populations have developed more than thousandfold resistance to tetraniliprole. Among the three investigated target site mutations in PxRyR, only I4790K was detected in both laboratory-selected strains. However, 2 mutations, I4790K and G4946E, were detected in field populations. A positive correlation between RRs and K allele frequencies was observed in the laboratory-selected/relaxed strains and field populations of P. xylostella. These results suggest a possible link between the development of anthranilic diamide resistance and the frequency of the PxRyR I4790K mutation, which can be used to develop effective strategies for diamide resistance management in P. xylostella.

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雷诺丁受体的 I4790K 突变是鳞翅目:恙螨科)田间种群对蒽二胺产生抗性的原因。
Plutella xylostella (Linnaeus) (Lepidoptera: Plutellidae) 对杀虫剂的抗药性是全球十字花科作物生产的一个主要制约因素。为有效管理杀虫剂抗性,有必要开发一种分子检测工具,根据目标位点的突变频率预测杀虫剂抗性水平。在本研究中,在实验室条件下对一个易感株(SHggt)进行氯虫苯甲酰胺(chlorantraniliprole)和四氮虫苯甲酰胺(tetraniliprole)筛选,分别获得了 CHLSel 和 TETSel 株系,以确定它们的抗性发展、交叉抗性和 P. xylostella ryanodine 受体(PxRyR)的突变频率。此外,还评估了来自 7 个田间种群的四唑抗性和 PxRyR 的突变频率。经过 30 代的连续选择,CHLSel 和 TETSel 株系的抗性比率(RRs)分别为 7,073.2 倍和 6,971.0 倍,对未暴露的二酰胺(如氰虫酰胺和氟苯虫酰胺)的交叉抗性也增加了数千倍。在田间种群中,7 个种群中有 3 个对四烯虫酰胺产生了超过千倍的抗性。在所调查的 PxRyR 的三个目标位点突变中,只有 I4790K 在两个实验室选择的菌株中都被检测到。不过,在田间种群中检测到了 I4790K 和 G4946E 这两种突变。在实验室筛选/松弛菌株和野外木虱种群中,RRs 和 K 等位基因频率之间呈正相关。这些结果表明,蒽酰二胺抗性的发展与 PxRyR I4790K 突变频率之间可能存在联系,可用于制定有效的木虱二胺抗性管理策略。
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