Litcius/Paper detail

Identification of an arthropod molecular target for plant-derived natural repellents

Quan Tian, Pei‐Yu Wang, Chang Xie, Peiyuan Pang, Youjing Zhang, Yue Gao, Zhijian Cao, Yingliang Wu, Wenxin Li, Michael X. Zhu, Dongdong Li, Jing Yao

2022Proceedings of the National Academy of Sciences16 citationsDOIOpen Access PDF

Abstract

Arthropods maintain ecosystem balance while also contributing to the spread of disease. Plant-derived natural repellents represent an ecological method of pest control, but their direct molecular targets in arthropods remain to be further elucidated. Occupying a critical phylogenetic niche in arthropod evolution, scorpions retain an ancestral genetic profile. Here, using a behavior-guided screening of the Mesobuthus martensii genome, we identified a scorpion transient receptor potential (sTRP1) channel that senses Cymbopogon-derived natural repellents, while remaining insensitive to the synthetic chemical pesticide DEET. Scrutinizing orthologs of sTRP1 in Drosophila melanogaster, we further demonstrated dTRPγ ion channel as a chemosensory receptor of natural repellents to mediate avoidance behavior. This study sheds light on arthropod molecular targets of natural repellents, exemplifying the arthropod–plant adaptation. It should also help the rational design of insect control strategy and in conserving biodiversity.

Topics & Concepts

ArthropodBiologyDEETBiodiversityEvolutionary biologyInsectDrosophila melanogasterPest controlEcologyZoologyGeneticsGeneIon Channels and ReceptorsInsect-Plant Interactions and ControlInsect and Pesticide Research