Integrative Transcriptomic and Functional Analysis Reveals Fatty Acyl Elongases Involved in Sex Pheromone Biosynthesis in Rice Leaffolder, Cnaphalocrocis medinalis (Lepidoptera: Pyraloidea)
Chen, L.-Y.; Lin, X.-Y.; Wang, K.-X.; Xiao, F.; Tang, H.-T.; Dong, S.; Zheng, L.-L.; Xia, Y.-H.
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Elongases are essential enzymes in the biosynthesis of sex pheromones in many lepidopteran species. Together with desaturases, they determine the carbon skeletons of many pheromone precursors, thereby contributing to the production of species-specific chemical signals. However, to date, such fatty acyl elongase gene has not been functionally characterized. The rice leaffolder, Cnaphalocrocis medinalis, utilizes a blend of C18 monounsaturated aldehydes and alcohols as its sex pheromone, implying a critical elongation step from C16 precursors. In this study, we performed pheromone gland transcriptome analysis and identified 45 candidate biosynthetic genes. Functional assays in Nicotiana benthamiana showed that the {Delta}11 desaturase Cmed070400 produces (Z)-11-hexadecenoic acid, which serves as the substrate for elongation. Multiple elongases catalyzed its conversion to (Z)-13-octadecenoic acid, with Cmed092440 showing the highest activity. These findings provide the first experimental evidence for elongase-mediated formation of C18 pheromone precursors in C. medinalis. The identification of a minimal set of functionally active enzymes further enables reconstruction of this pathway in plant systems, offering a basis for sustainable production of pheromone precursors for pest management applications.
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