Differential Antioxidant Enzyme Gene Expression and Functional Analysis of Pyridaben-Susceptible and -Resistant Strains of Tetranychus truncatus (Acari: Tetranychidae) under High Temperature Stress
Liwen Song, Cailan Yu, Wenliang Li, Lei Liu, Qinzhe Sun, Huan Liu, Senshan Wang

TL;DR
This study explores how a spider mite species adapts to high temperatures and pesticide resistance by analyzing antioxidant enzyme genes.
Contribution
The study identifies specific antioxidant enzyme genes involved in thermal adaptation of a pesticide-resistant spider mite strain.
Findings
Four antioxidant enzyme genes (TtSOD, TtPOD3, TtPOD4, TtGSTs2) were found to be differentially expressed in resistant and susceptible spider mite strains under high temperature stress.
RNA interference showed that silencing the TtPOD4 gene significantly increased mortality in resistant mites under high temperature.
Resistant mites exhibited higher antioxidant gene expression levels in the adult stage compared to susceptible ones.
Abstract
Tetranychus truncatus (Acari: Tetranychidae) is the dominant pest on many crops in China. The resistant strain cultivated by pyridaben in our laboratory showed higher adaptability to high temperature than the susceptible strain. Antioxidant enzymes can reduce the damage of reactive oxygen species (ROS) caused by high temperature. Therefore, the antioxidant enzyme genes of T. truncatus were screened, and their biological information was analyzed. The expression patterns of antioxidant enzyme genes in two strains of T. truncatus under high temperature stress were determined by RT-qPCR method, and their functions were verified by RNA interference (RNAi) technology. The experimental results provide a theoretical basis for understanding the occurrence of agricultural mites under the background of climate warming and applying gene regulation technology to control T. truncatus in the future.…
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Taxonomy
TopicsInsect-Plant Interactions and Control · Insect and Pesticide Research · Insect Resistance and Genetics
