戒毒(替代医学)
变构调节
突变
生物化学
生物
激素
细胞生物学
定点突变
化学
突变体
代谢调节
受体
活性氧
适应(眼睛)
氧化磷酸化
突变
羧酸酯酶
代谢途径
信号转导
调解人
基因表达调控
基因
酶
糖酵解
氧化应激
调节器
酶激活剂
作者
Jun Li,Xiaodan Huang,Xinyu Zhao,Mengqing Deng,Xiyue Xu,Tianxiang Xiao,Qiong Yao,Zhiming Yang,Kai Lu
标识
DOI:10.1021/acs.jafc.5c10880
摘要
Polyphagous insects utilize carboxylesterases (COEs) to defense against plant allelochemicals, though the mechanisms underlying COE-mediated detoxification remain elusive. Using the xanthotoxin-Spodoptera litura model, we reveal a detoxification framework integrating hormonal regulation and catalytic plasticity. The 20-hydroxyecdysone receptor EcR/USP coordinates stage-specific COE induction during feeding phases, as evidenced by 30.87-43.21% COE052 suppression post-RNAi and increased larval xanthotoxin susceptibility. Promoter activation assays identified EcR/USP-responsive elements, with mutagenesis revealing the critical -495/-481 regulatory sequence in COE052. Functionally, COE052 demonstrates dual functionality, achieving 31.41% xanthotoxin degradation concurrent with 44.34% ROS reduction. Structural analyses characterized three noncatalytic residues (Gly130/Thr463/His464) as an allosteric gatekeeper, whose mutations reduced metabolic efficiency (16.83-25.83%) via substrate-network destabilization. Furthermore, all mutants displayed impaired oxidative stress tolerance in prokaryotic systems, validating synergistic roles in redox maintenance. These discoveries culminate in a tripartite defense model integrating hormonal coordination, transcriptional adaptability, and structural evolution, wherein noncatalytic domains critically potentiate COE052's functional spectrum.
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