Litcius/Paper detail

CRISPR/Cas9-mediated F1534S substitution in the voltage-gated sodium channel reveals its necessity and sufficiency for deltamethrin resistance in Aedes albopictus

Yijia Guo, Jingni Zhou, Yijie Zhao, Jielin Deng, Xinghua Su, Jianxia Tang, Guoding Zhu, Xiaojie Zhou, Jinbao Gu, Guiyun Yan, Anthony A. James, Xiao‐Guang Chen

2022Journal of Pest Science28 citationsDOIOpen Access PDF

Abstract

Abstract Insecticide resistance in Aedes mosquitoes presents a major challenge to the control of arboviral diseases. However, resistance mechanisms for many of the insecticides remain unknown. A commonly used insecticide, deltamethrin, was used to select a resistance strain of the vector mosquito, Aedes albopictus , and we identified an F1534S substitution in the voltage-gated sodium channel ( VGSC ) gene product as the first event in generating resistance. Engineering an F1534S substitution using Cas9/gRNA technologies conferred deltamethrin resistance on a previously susceptible strain. Crosses that removed this mutation restored the susceptible phenotype. Predicted protein structural changes and differences in transcript accumulation levels were correlated with the resistance phenotype. Furthermore, F1534S mutations were detected in all resistant Ae. albopictus populations collected in the field. We conclude that the VGSC F1534S mutation is essential for resistance to deltamethrin in Ae. albopictus , and is a suitable molecular index for pyrethroid resistance detection and monitoring in this species.

Topics & Concepts

DeltamethrinBiologyCas9Aedes albopictusCRISPRPyrethroidKnockdown resistanceSodium channelGeneticsAedes aegyptiVector (molecular biology)Pesticide resistanceGeneInsecticide resistanceAedesMutationToxicologyVirologyDengue feverPesticideRecombinant DNABotanySodiumLarvaEcologyCyfluthrinOrganic chemistryChemistryMosquito-borne diseases and controlInsect Resistance and GeneticsInsect symbiosis and bacterial influences