Abstract
Mosquito transgenesis and gene-drive technologies provide the basis for developing promising new tools for vector-borne disease prevention by either suppressing wild mosquito populations or reducing their capacity from transmitting pathogens. Many studies of the regulatory DNA and promoters of genes with robust sex-, tissue- and stage-specific expression profiles have supported the development of new tools and strategies that could bring mosquito-borne diseases under control. Although the list of regulatory elements available is significant, only a limited set of those can reliably drive spatial–temporal expression. Here, we review the advances in our ability to express beneficial and other genes in mosquitoes, and highlight the information needed for the development of new mosquito-control and anti-disease strategies.
Funder
University of California Irvine Malaria Initiative
Subject
Molecular Biology,Biochemistry
Reference136 articles.
1. WHO (2017). Framework for a National Vector Control Needs Assessment, World Health Organization.
2. WHO (2017). Global Vector Control Response 2017–2030, World Health Organization.
3. Insecticide Resistance in African Anopheles Mosquitoes: A Worsening Situation That Needs Urgent Action to Maintain Malaria Control;Ranson;Trends Parasitol.,2016
4. Prospects and Pitfalls: Next-Generation Tools to Control Mosquito-Transmitted Disease;Caragata;Annu. Rev. Microbiol.,2020
5. Mosquito Transgenesis for Malaria Control;Dong;Trends Parasitol.,2021
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