2011
DOI: 10.1038/nature09937
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A synthetic homing endonuclease-based gene drive system in the human malaria mosquito

Abstract: Genetic methods of manipulating or eradicating disease vector populations have long been discussed as an attractive alternative to existing control measures because of their potential advantages in terms of effectiveness and species specificity1–3. The development of genetically engineered malaria-resistant mosquitoes has shown, as a proof-of-principle, the possibility of targeting the mosquito’s ability to serve as a disease vector4–7. The translation of these achievements into control measures requires an ef… Show more

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Cited by 316 publications
(313 citation statements)
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References 41 publications
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“…No engineered endonuclease gene drive capable of spreading through a wild population has yet been published. However, the Crisanti and Russell laboratories have constructed gene drives that can only spread through laboratory mosquito 9 and fruit fly 16,63 populations that have been engineered to contain the endonuclease cut site. The Burt and Crisanti laboratories are attempting to build a male-biasing suppression drive using an endonuclease that serendipitously cuts a conserved sequence repeated hundreds of times in the X chromosome of the mosquito Anopheles gambiae 7,10,64 .…”
Section: Engineered Gene Drivesmentioning
confidence: 99%
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“…No engineered endonuclease gene drive capable of spreading through a wild population has yet been published. However, the Crisanti and Russell laboratories have constructed gene drives that can only spread through laboratory mosquito 9 and fruit fly 16,63 populations that have been engineered to contain the endonuclease cut site. The Burt and Crisanti laboratories are attempting to build a male-biasing suppression drive using an endonuclease that serendipitously cuts a conserved sequence repeated hundreds of times in the X chromosome of the mosquito Anopheles gambiae 7,10,64 .…”
Section: Engineered Gene Drivesmentioning
confidence: 99%
“…Incomplete cutting was a problem for the homing endonuclease drive constructed in transgenic mosquitoes (72% cutting) and also for the homing endonuclease, zinc-finger nuclease, and TALEN drives in fruit flies (37%, 86%, and 70% cutting) 9,16,76 . The simplest way to increase cutting is to target multiple adjacent sequences.…”
Section: Cuttingmentioning
confidence: 99%
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“…Finally, targeted nucleases have also been used to inactivate pathogenic genes to prevent viral (Lin et al 2014) or parasitic (Ghorbal et al 2014) infection, as well as to introduce knockin-specific factors capable of imparting pathogen resistance . Intriguingly, targeted nucleases could also serve as conduits for curbing mosquito-or insect-borne diseases through a technique known as gene drive (Burt 2003;Sinkins and Gould 2006), which harnesses genome editing to facilitate the introduction of a specific gene or mutation that can then confer a particular phenotype into a host and also be transmitted to its progeny (Windbichler et al 2011). Gene drives have now been tested in the malaria vector mosquitos Anopheles stephensi and Anopheles gambiae (Hammond et al 2016) as a means for achieving population control and to prevent disease transmission, respectively.…”
Section: Genome-editing Applications Engineering Cell Lines and Organmentioning
confidence: 99%
“…In most studies, in vitro produced mRNA is used as a source of integrase 33,34 , but plasmid templates have recently also proved suitable (A. L., unpublished ; S. Fuchs, T. Nolan & A.…”
Section: Overview Of the Phi C31 System In An Gambiaementioning
confidence: 99%