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Combating mosquito-borne diseases using genetic control technologies

Guan-Hong Wang, Stephanie Gamez, Robyn Raban, John M. Marshall, Luke Alphey, Ming Li, Jason L. Rasgon, Omar S. Akbari

2021Nature Communications204 citationsDOIOpen Access PDF

Abstract

Mosquito-borne diseases, such as dengue and malaria, pose significant global health burdens. Unfortunately, current control methods based on insecticides and environmental maintenance have fallen short of eliminating the disease burden. Scalable, deployable, genetic-based solutions are sought to reduce the transmission risk of these diseases. Pathogen-blocking Wolbachia bacteria, or genome engineering-based mosquito control strategies including gene drives have been developed to address these problems, both requiring the release of modified mosquitoes into the environment. Here, we review the latest developments, notable similarities, and critical distinctions between these promising technologies and discuss their future applications for mosquito-borne disease control.

Topics & Concepts

WolbachiaMalariaDengue feverMosquito controlGene driveTransmission (telecommunications)BiologyRisk analysis (engineering)Computer scienceBiotechnologyComputational biologyVirologyCRISPRMedicineGeneticsGeneImmunologyTelecommunicationsInsect symbiosis and bacterial influencesInsect behavior and control techniquesCRISPR and Genetic Engineering
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