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Molecular Evolutionary Mechanisms of <i>CYP6ER1vA</i>-Type Variant Associated with Resistance to Neonicotinoid Insecticides in Field Populations of <i>Nilaparvata lugens</i>

Youhui Gong, Shiyang Cheng, Xiaojian Xiu, Fei Li, Nannan Liu, Maolin Hou

2023Journal of Agricultural and Food Chemistry13 citationsDOI

Abstract

The evolution of insecticide resistance has threatened the control of Nilaparvata lugens . Research on mechanisms behind neonicotinoid resistance in N. lugens remains incomplete. This study examined P450-mediated resistance to neonicotinoids in a resistant N. lugens strain (XA-2017-3G). The overexpression of CYP6ER1 in the XA-2017-3G strain plays a role in neonicotinoid resistance, as confirmed by RNA interference. Phenotypic analyses of CYP6ER1 -mediated resistance in strains, including laboratory-susceptible, field-collected, and imidacloprid-laboratory further-selected strains, revealed that the vA-type/vL-type genotype exhibited greater resistance to neonicotinoids compared to the vA-type/vA-type genotype. The mRNA expression levels of CYP6ER1vA -type were closely correlated with the levels of neonicotinoid resistance in N. lugens strains, in which CYP6ER1vA -type overexpression is in part attributed to increased copy numbers of CYP6ER1 . CYP6ER1vA -type-mediated neonicotinoid resistance was further confirmed by a CYP6ER1vA -type transgenic Drosophila melanogaster line. Taken together, our findings strongly suggest that the overexpression of CYP6ER1vA -type, which can be partially attributed to copy number variations, plays a crucial role in N. lugens resistance to neonicotinoids.

Topics & Concepts

ImidaclopridNeonicotinoidBiologyGeneticsGenotypeDrosophila melanogasterBrown planthopperResistance (ecology)Strain (injury)PhenotypeToxicologyGenePesticideAgronomyAnatomyInsect Resistance and GeneticsInsect and Pesticide ResearchInsect-Plant Interactions and Control