Abstract
Insect odorant binding proteins (OBPs) paly an important role in the recognition and transmission signals. One odorant binding protein gene, TcasOBP7G, was significantly up-regulated after exposure to eucalyptol. Nevertheless, the causal role of TcasOBP7G in Tribolium castaneum is still unclear. Here, TcasOBP7G was cloned and characterized from T. castaneum, aligning with the typical characteristic of Minus-C OBPs. The analysis of gene expression profile showed that TcasOBP7G is highly expressed at late larval and adult stage, with particularly high expression levels in ovary and testis of adults, suggesting that TcasOBP7G might be associated with reproduction of T. castaneum. Furthermore, RNAi of TcasOBP7G led to a decrease in spawning, while the development of gonads was normal, suggesting that TcasOBP7G may medicate the reproduction of T. castaneum. Additionally, the mRNA level of TcasOBP7G was significantly increased after exposure to eucalyptol, and knockdown of TcasOBP7G resulted in an increased susceptibility of T. castaneum to eucalyptol, indicating that TcasOBP7G is associated with the tolerance of T. castaneum to eucalyptol. Altogether, these results indicate that TcasOBP7G is required for both reproduction and defense against phytochemical in T. castaneum. This study will provide a theoretical basis for the development of novel control strategies based on the olfaction of insects.
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