Litcius/Paper detail

Olfactory perception of trifluralin by GOBP2 decreases the susceptibility of Spodoptera litura to insecticides through modulation of 20E signaling pathway-mediated metabolic detoxification

Xiaodan Huang, Tianxiang Xiao, Xinyu Zhao, Zhiming Yang, Zhongxiang Sun, Kai Lu

2025Journal of Hazardous Materials5 citationsDOI

Topics & Concepts

Spodoptera lituraIndoxacarbBiologyEcdysone receptorDetoxification (alternative medicine)BiochemistryTransactivationMetabolic pathwaySteroid biosynthesisEcdysteroidGlutathioneChlorpyrifosCytochrome P450ToxicologyPharmacologySignal transductionXenobioticGeneCell biologyMetabolismTrifluralinTransgeneGenetically modified cropsNuclear receptorAbamectinSpodopteraNeurobiology and Insect Physiology ResearchInsect Resistance and GeneticsGenetics, Aging, and Longevity in Model Organisms
Olfactory perception of trifluralin by GOBP2 decreases the susceptibility of Spodoptera litura to insecticides through modulation of 20E signaling pathway-mediated metabolic detoxification | Litcius