1. Transcriptional regulation and overexpression of GST cluster enhances pesticide resistance in the cotton bollworm, Helicoverpa armigera (Lepidoptera: Noctuidae).
- Author
-
Jin, Minghui, Peng, Yan, Peng, Jie, Zhang, Huihui, Shan, Yinxue, Liu, Kaiyu, and Xiao, Yutao
- Subjects
PESTICIDE resistance ,HELIOTHIS zea ,HELICOVERPA armigera ,GENETIC transcription regulation ,INSECTICIDES ,NOCTUIDAE ,INSECTICIDE resistance ,PESTICIDES - Abstract
The rapid evolution of resistance in agricultural pest poses a serious threat to global food security. However, the mechanisms of resistance through metabolic regulation are largely unknown. Here, we found that a GST gene cluster was strongly selected in North China (NTC) population, and it was significantly genetically-linked to lambda-cyhalothrin resistance. Knockout of the GST cluster using CRISPR/Cas9 significantly increased the sensitivity of the knockout strain to lambda-cyhalothrin. Haplotype analysis revealed no non-synonymous mutations or structural variations in the GST cluster, whereas GST_119 and GST_121 were significantly overexpressed in the NTC population. Silencing of GST_119 or co-silencing of GST_119 and GST_121 with RNAi significantly increased larval sensitivity to lambda-cyhalothrin. We also identified additional GATAe transcription factor binding sites in the promoter of NTC_GST_119. Transient expression of GATAe in Hi5 cells activated NTC_GST_119 and Xinjiang (XJ)_GST_119 transcription, but the transcriptional activity of NTC_GST_119 was significantly higher than that of XJ_GST_119. These results demonstrate that variations in the regulatory region result in complex expression changes in the GST cluster, which enhances lambda-cyhalothrin resistance in field-populations. This study deepens our knowledge of the evolutionary mechanism of pest adaptation under environmental stress and provides potential targets for monitoring pest resistance and integrated management. A glutathione S-transferase gene cluster in the cotton bollworm, Helicoverpa armigera, contributes to natural insecticide resistance in this agricultural pest. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF