CeO2 nanohybrid as a synergist for insecticide resistance management
Qinghong Zeng, Chang Yu, Xuanli Chang, Yue Wan, Yulong Ba, Chengyue Li, Haixiang Lv, Zhimin Guo, Tingwei Cai, Zhijie Ren, Yao Qin, Yunhua Zhang, Kangsheng Ma, Jianhong Li, Shun He, Hu Wan
Journal:CHEMICAL ENGINEERING JOURNAL
IF:16.74
DOI:10.1016/j.cej.2022.137074
PMID:
Published:2022-05-18
research field:分子生物学RNA结构与功能慢病毒研究抗病毒治疗病毒学
Abstract
Agricultural applications of nanomaterials, such as nanofertilizers, nanopreservation technologies, nanopesticides, and plant nanosensors, have recently attracted much attention. Herein, the CeO 2 -based nanohybrid [email protected] 2 was designed as a reactive oxygen species (ROS) inhibitor to effectively improve the susceptibility of insect pests to insecticides. [email protected] 2 was fabricated by intercalating CeO 2 into mesoporous organosilica nanoparticles (MONs). The obtained [email protected] 2 showed a regular spherical shape with an average particle size of 45.4 nm, good monodispersity, and a negative surface charge (-14.6 mV). Bioassay results showed that [email protected] 2 significantly enhanced the toxicity (more than 2-fold) of nitenpyram, sulfoxaflor, and clothianidin against laboratory insecticide-resistant and field strains of Nilaparvata lugens . In particular, [email protected] 2 orchestrated host detoxification metabolism via downregulating ROS-dependent P450 gene expression, thus reducing host detoxification enzyme activities to overcome insecticide resistance. Furthermore, [email protected] 2 restrained host insecticide resistance in the notorious agricultural pests Aphis gossypii , Spodoptera frugiperda , and Sogatella furcifera . Therefore, [email protected] 2 could be used as a broad-spectrum nanosynergist against insecticide resistance, which would be a novel strategy for sustainable pest management.
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