Molecular cloning and expression of glutathione S-transferases involved in propargite resistance of the carmine spider mite, Tetranychus cinnabarinus (Boisduval).

The carmine spider mite (CSM) Tetranychus cinnabarinus has become a serious pest in China and has developed resistance to acaricide propargite as it is used to control mites worldwide including T. cinnabarinus. In this study, a resistant colony of T. cinnabarinus, PRR34 (37.78-fold resistant ratio), was established after 34 generations of propargite selection, and cross-resistance patterns of 7 other acaricides were determined in comparison with a susceptible strain (SS). The contribution of detoxification enzymes to propargite tolerance were investigated using biological, biochemical and molecular approaches. Enzyme inhibitor synergist tests suggested glutathione S-transferases (GST) involvement in propargite-resistance of PRR34, and GST activity against 1-chloro-2,4-dinitrobenzene (CDNB) was correlated with the development of resistance. Eight novel GST genes (TcGSTd1, TcGSTd2, TcGSTm1, TcGSTm2, TcGSTm3, TcGSTm4 and TcGSTm5) were cloned, and phylogenetic analysis showed that the eight GST genes were most closely related to GST family delta and mu from Tetranychusurticae. Quantitative RT-PCR revealed that the expression level of GSTs in PPR34 strain increased in larvae, nymphs and adults, while decreased in eggs compared with that of SS. Collectively, these results support a role of GSTs in mediating resistance to propargite in the PRR34 strain. TcGSTd1,TcGSTd2 and TcGSTm2 genes might play significant roles in propargite resistance of CSM, especially at adult stage. This is the first attempt to define specific genes involved in GST mediated propargite resistance of T. cinnabarinus at the transcriptional level.

Retinoid X receptor 1 is a specific lethal RNAi target disturbing chitin metabolism during hatching of Tetranychus cinnabarinus.

RNA interference (RNAi) can be developed as an alternative method of chemical pesticides for pest control. In this study, we noticed a specifically expressed gene (retinoid X receptor 1, TcRXR1) in the egg stage of T. cinnabarinus. RNAi was applied to investigate the function of TcRXR1. Results showed that with continuous feeding of dsTcRXR1, the larvae of T. cinnabarinus could still successfully develop to adult, which was in accordance with the low expression of TcRXR1 out of egg stage. High mortality of eggs was observed after eggs were treated with dsTcRXR1. To investigate the downstream genes of TcRXR1, the RNA samples after successful RNAi of TcRXR1 were analyzed by transcriptome analysis. According to function annotation of differentially expressed genes, 6 genes were selected for their potential function with the phenotype of dsTcRXR1, and among them, a chitinase gene (TcCHT-E) attained a high expression level in the late stage of egg, peaking just after the expression peak of TcRXR1. Mortality of eggs was observed under the effect of dsTcCHT-E as well as dsTcRXR1. In conclusion, TcRXR1 is a specific RNAi target for control of T. cinnabarinus, and its lethal mechanism might be disturbing chitin metabolism hatching of egg.