ABCC3 mediates insecticide metabolism and functions as a receptor for Bt toxins in Plutella xylostella
文献类型: 外文期刊
第一作者: Zhou, Yuanyuan
作者: Zhou, Yuanyuan;Chen, Jinli;Liu, Wei;Ma, Xiaochen;Zhou, Yuanyuan;Chen, Jinli;Liu, Wei;Ma, Xiaochen;Chen, Wei;Yang, Qing;Zhou, Yuanyuan;Liu, Yuansheng;Yang, Qing
作者机构:
关键词: ABCC3; Bt toxins; detoxification; insecticide resistance; Plutella xylostella
期刊名称:INSECT SCIENCE ( 影响因子:3.0; 五年影响因子:3.5 )
ISSN: 1672-9609
年卷期: 2025 年
页码:
收录情况: SCI
摘要: Plutella xylostella is a major global pest with increasing resistance to insecticides. ATP-binding cassette (ABC) transporters are implicated in the metabolism of insecticides, but their molecular mechanisms remain poorly understood. Here, we identified and characterized the role of P. xylostella ABCC3 (PxABCC3) in mediating the metabolism of chemical insecticides and its function as a receptor for Bacillus thuringiensis (Bt) toxins. PxABCC3 and its mutant variants were cloned, expressed, and purified, followed by biochemical and structural analyses. Our results showed that PxABCC3 exhibits typical ABC transporter structural features and its ATPase activity is significantly modulated by chlorpyrifos and pyriproxyfen, and other insecticides. Surface plasmon resonance confirmed direct insecticide binding. Overexpression of PxABCC3 in insect cells enhanced survival under chlorpyrifos and pyriproxyfen exposure, suggesting an efflux-mediated detoxification mechanism. The analysis of predicted complex structures of PxABCC3 with chlorpyrifos or pyriproxyfen identified overlapping substrate-binding pockets within the transmembrane channel. Furthermore, PxABCC3 functions as a receptor for Bt toxins Cry1Ac and Cry1Ab, as evidenced by toxin-induced ATPase activation, binding affinity, and cellular swelling in transfected cells. We further predicted the complex structure of PxABCC3-Cry1Ab, revealing that Cry1Ab binds to the extracellular side of PxABCC3 via domain II through electrostatic complementarity and hydrogen-bond networks. These findings provide novel insights into mechanistic understanding at the protein level, especially with respect to structural characteristics and substrate-binding specificity, and highlight PxABCC3 as a potential target for pest control.
分类号:
- 相关文献
作者其他论文 更多>>
-
LACCASE35 enhances lignification and resistance against Pseudomonas syringae pv. actinidiae infection in kiwifruit
作者:Li, Yawei;Zhang, Dongle;Wang, Xiaojie;Wu, Shunyuan;Liu, Pu;Wang, Xiaojie;Zhou, Rongrong;Fang, Zemin;Bai, Fuxi;Li, Rui;Liu, Wei;Huang, Lili
关键词:
-
Multi-scale structural influence of starch on their interaction of caffeic acid and starch after freeze-thaw: Taking potato starch and lotus seed starch as examples
作者:Zhao, Renjie;Li, Chi;Liu, Qiannan;Liu, Wei;Zhang, Liang;Zhang, Zhenzhen;Zhao, Ruixuan;Hu, Honghai;Yao, Jia;Li, Chi
关键词:Caffeic acid; Starch; Interaction
-
Influence of the 'painless' TRP channel on temperature-dependent escape and humidity-related pupation in Bactrocera dorsalis larvae
作者:Zhang, Yan;Zhang, Panpan;Luo, Zhicai;Wang, Qi;Zhang, Jie;Yang, Minghuan;Yan, Shanchun;Liu, Wei;Wang, Guirong
关键词:Bactrocera dorsalis; Bdorpainless; CRISPR/Cas9; extreme environments; escape behavior
-
Twinstar is a chitin synthase interacting protein with an essential role in insect cuticle biosynthesis
作者:Zou, Xu;Chen, Jiqiang;Yang, Qing;Duan, Yanwei;Zhu, Weixing;Yang, Qing
关键词:chitin; chitin synthase; Twinstar; insect cuticle; pest control
-
Multienzyme cascade for synthesis of hydroxytyrosol via engineered Escherichia coli
作者:Xiong, Tianzhen;Li, Xinmeng;Yue, Huidie;Liu, Junling;Bai, Dingyuan;Li, Wei;Fan, Guangyan;Xiong, Tianzhen;Li, Xinmeng;Yue, Huidie;Liu, Junling;Bai, Dingyuan;Li, Wei;Fan, Guangyan;Xiong, Tianzhen;Liu, Wei;Xiong, Tianzhen
关键词:Hydroxytyrosol;
Escherichia coli ; Cascade reaction; Whole cell biotransformation -
Novel conjugated 5-alkenyl rhodanine tethered 1,4-benzodioxane derivatives as dual-chitinases inhibitors to hinder the growth of Asian corn borer
作者:Chen, Jinxiu;Shi, Dongmei;Jiang, Zhiyang;Zou, Renxuan;Zhang, Jingyu;Han, Qing;Wang, Na;Duan, Hongxia;Chen, Jinxiu;Shi, Dongmei;Jiang, Zhiyang;Zou, Renxuan;Zhang, Jingyu;Han, Qing;Wang, Na;Duan, Hongxia;Xu, Zhijian;Yang, Qing
关键词:O. furnacalis; Chitinase; 5-alkenylthiazolidinone; 1,4-benzodioxane; Dual-chitinases inhibitor
-
Novel 5-alkenylthiothiazolidinone scaffold discovery as Multi-Chitinases inhibitors to arrest the molting of Asian corn borer
作者:Shi, Dongmei;Ji, Xinge;Zou, Renxuan;Jiang, Zhiyang;Han, Qing;Huang, Jiaxing;Duan, Hongxia;Shi, Dongmei;Ji, Xinge;Zou, Renxuan;Jiang, Zhiyang;Han, Qing;Huang, Jiaxing;Duan, Hongxia;Xu, Zhijian;Duan, Yangwei;Yang, Qing;Duan, Yangwei;Yang, Qing
关键词:5-alkenylthiothiazolidinone scaffold; Multichitinase inhibitor; Amide bond; Asian corn borer; insect growth regulator
