单加氧酶
黄素组
抗药性
叔胺
生物
化学
抗性(生态学)
生物化学
毒理
有机化学
酶
生态学
细胞色素P450
作者
Cong Rao,Chao Yuan,Wenzhi He,Hailiang Guo,Kuitun Liu,Jianfeng Fan,Jianya Su
标识
DOI:10.1021/acs.jafc.5c01818
摘要
This study elucidates the molecular mechanism by which flavin-containing monooxygenase (FMO) mediates metabolic resistance to nereistoxin insecticides in lepidopteran pests. A field population of Spodoptera exigua exhibited 50-fold resistance with upregulated SeFMO expression. Using FMO-specific inhibitors, recombinant protein expression, and mass spectrometry, we confirmed that FMO catalyzes N-oxidation of nereistoxin insecticide at the tertiary amine nitrogen. Molecular docking revealed that insect FMO's catalytic mechanism resembles that of human FMO. Transgenic Drosophila models demonstrated that the FMO-mediated N-oxidation enhances insecticide resistance, indicating evolutionary conservation. This highlights FMO's role in insecticide detoxification and its conserved function across species, providing new insights into pest resistance mechanisms.
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