Keywords: Culex quinquefasciatus
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New CRISPR Tools Can Help Contain Mosquito Disease TransmissionAnonymous, labcompare, 2021.
Scientists have now developed several genetic editing tools that help pave the way to an eventual gene drive designed to stop Culex mosquitoes from spreading disease. As detailed in the journal Nature Communications, Xuechun Feng, Valentino Gantz and their colleagues at Harvard ... |
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Researchers Create New CRISPR Tools to Help Contain Mosquito Disease TransmissionM. Aguilera, UC San Diego News Center, 2021.
Much less genetic engineering has been devoted to Culex genus mosquitoes, which spread devastating afflictions stemming from West Nile virus—the leading cause of mosquito-borne disease in the continental United States—as well as other viruses such as the Japanese encephalitis ... |
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New CRISPR tools help contain mosquito disease transmission: Genetics toolkit targets less researched Culex mosquitoes, which transmit West Nile virus and avian malaria.University of California - San Diego, ScienceDaily, 2021.
Since the onset of the CRISPR genetic editing revolution, scientists have been working to leverage the technology in the development of gene drives that target pathogen-spreading mosquitoes such as Anopheles and Aedes species, which spread malaria, dengue and other ... |
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Optimized CRISPR tools and site-directed transgenesis towards gene drive development in Culex quinquefasciatus mosquitoesX. Feng, V. López Del Amo, E. Mameli, M. Lee, A. L. Bishop, N. Perrimon and V. M. Gantz, Nature Communications, 12:2960. 2021.
Culex mosquitoes are a global vector for multiple human and animal diseases, including West Nile virus, lymphatic filariasis, and avian malaria, posing a constant threat to public health, livestock, companion animals, and endangered birds. While rising insecticide resistance has ... |
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Wolbachia transinfections in Culex quinquefasciatus generate cytoplasmic incompatibilityT. H. Ant, C. Herd, F. Louis, A. B. Failloux and S. P. Sinkins, Insect Molecular Biology, 29:1-8. 2020.
Culex quinquefasciatus is an important mosquito vector of a number of viral and protozoan pathogens of humans and animals, and naturally carries the endosymbiont Wolbachia pipientis, strain wPip. Wolbachia are used in two distinct vector control strategies: firstly, population ... |
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Genetic pest management technologies to control invasive rodentsD. Kanavy and D. Threadgill, Island invasives: scaling up to meet the challenge, 2019.
Many strategies exist to manage invasive pests on islands, ranging from poison to trapping, with varying degrees of success. Genetic technologies are increasingly being applied to insect pests, but so far, not to vertebrates. We are implementing a genetic strategy to eradicate ... |
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Trialling gene drives to control invasive species: what, where and how?T. Harvey-Samuel, K. J. Campbell, M. Edgington and L. Alphey, Island invasives: scaling up to meet the challenge, 2019.
The control of invasive species would be enhanced through the addition of novel, more effective and sustainable pest management methods. One control option yet to be trialled in the field is to deploy transgene-based ‘Gene Drives’: technologies which force the inheritance of ... |
