Detoxification enzyme is involved in the temperature effect on the toxicity of tetrachlorantraniliprole to Plutella xylostella

The efficacy of insecticides is usually influenced by temperature. Insecticides can be divided into “positive”, “negative” and “non-effect” temperature coefficient insecticides (TCI). To assess the temperature-dependent effect of tetrachlorantraniliprole (TET) on Plutella xylostella Linnaeus and to...

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Published in:Pesticide biochemistry and physiology 2023-09, Vol.195, p.105536-105536, Article 105536
Main Authors: An, Jingjie, Dou, Ya’nan, Dang, Zhihong, Guo, Jianglong, Gao, Zhanlin, Li, Yaofa
Format: Article
Language:English
Subjects:
Detoxification enzymes
Insecticides
Plutella xylostella
Temperature effect
Tetrachlorantraniliprole
Transcriptome analysis
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Summary:The efficacy of insecticides is usually influenced by temperature. Insecticides can be divided into “positive”, “negative” and “non-effect” temperature coefficient insecticides (TCI). To assess the temperature-dependent effect of tetrachlorantraniliprole (TET) on Plutella xylostella Linnaeus and to elucidate the mechanism of temperature affects TET toxicity, we determined the toxicity of TET against P. xylostella from 15 °C to 35 °C by leaf dipping method. Moreover, we compared the transcriptome data of the third-instar larvae treated by TET, chlorfenapyr (CHL, non-effect TCI), and the control group at 15, 25, 35 °C, respectively. The results showed that the toxicity of TET against P. xylostella increased with increasing temperature from 15 °C to 35 °C. A total of 21 differential expressed genes (DEGs) of detoxification enzymes were screened by RNA-seq, in which 10 up-regulated genes (3 UGTs, 2 GSTs, 5 P450s) may involve the positive temperature effect of TET, and their expression patterns were consistent with qPCR results. Furthermore, the enzyme activities of GSTs and UGTs significantly increased after TET was treated at 15 °C. Especially, the temperature coefficient (TC) of TET was significantly reduced mixed with UGTs enzyme inhibitor 5-NI. Overall, TET showed higher insecticidal activity with increasing temperature, in which detoxifying enzymes associated with regulation of the positive temperature effect of TET on P. xylostella, such as UGTs, GSTs and P450s, are strongly involved. The transcriptome data provide in-depth information to understand the TET mechanism against diamondback moth. Most importantly, we identified detoxification enzymes that might be involved in regulating TET's positive temperature effect process, and contributed to efficient pest management. [Display omitted] •The efficacy and toxicity of insecticides was usually influence by temperature.•Tetrachlorantraniliprole has positive temperature effect to Plutella xylostella.•Detoxification enzymes were involved in the regulation of temperature effect.
ISSN:0048-3575
1095-9939
DOI:10.1016/j.pestbp.2023.105536