2018
DOI: 10.1038/s41598-018-34909-3
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Development of a multi-locus CRISPR gene drive system in budding yeast

Abstract: The discovery of CRISPR/Cas gene editing has allowed for major advances in many biomedical disciplines and basic research. One arrangement of this biotechnology, a nuclease-based gene drive, can rapidly deliver a genetic element through a given population and studies in fungi and metazoans have demonstrated the success of such a system. This methodology has the potential to control biological populations and contribute to eradication of insect-borne diseases, agricultural pests, and invasive species. However, … Show more

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Cited by 32 publications
(30 citation statements)
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“…bacteria, yeast, insects, and mammals (Windbichler et al 2011;Gantz and Bier 2015;DiCarlo et al 2015;Hammond et al 2016Hammond et al , 2018Champer et al 2017Champer et al , 2018KaramiNejadRanjbar et al 2018;Kyrou et al 2018;Yan and Finnigan 2018;Li et al 2019;Grunwald et al, 2019, Valderrama et al, 2019. They function by encoding the Cas9 endonuclease and an independently expressed guide RNA (gRNA) responsible for mediating DNA/RNA base pairing and cleavage at a predetermined site (Esvelt et al 2014;Bier 2015, 2016;Champer et al 2016;Marshall and Akbari 2018).…”
mentioning
confidence: 99%
“…bacteria, yeast, insects, and mammals (Windbichler et al 2011;Gantz and Bier 2015;DiCarlo et al 2015;Hammond et al 2016Hammond et al , 2018Champer et al 2017Champer et al , 2018KaramiNejadRanjbar et al 2018;Kyrou et al 2018;Yan and Finnigan 2018;Li et al 2019;Grunwald et al, 2019, Valderrama et al, 2019. They function by encoding the Cas9 endonuclease and an independently expressed guide RNA (gRNA) responsible for mediating DNA/RNA base pairing and cleavage at a predetermined site (Esvelt et al 2014;Bier 2015, 2016;Champer et al 2016;Marshall and Akbari 2018).…”
mentioning
confidence: 99%
“…As of now, any SARS-CoV-2 specific therapy is not available to cure COVID-19 and also, the vaccine development is estimated to take 12-18 months. Recently, CRISPR-Cas13 has emerged as a potent system having the abilityto protect host bacterial cells against bacteriophage infection by using sequence specific crRNAs (Yan and Finnigan, 2018;Yan W. X. et al, 2019). A similar strategy may also be applied to design a therapeutic agent to target the ssRNA genome of SARS-CoV-2 for managing COVID-19.…”
Section: Crispr-cas Applicationsmentioning
confidence: 99%
“…A fundamental design of CRISPR based gene drive employs a nuclease (Cas9 or Cas12a), guide expression cassette(s) integrated into the genome and donor ("cargo") element. The CRISPR/Cas construct is copied via DSB and homology-directed repair allowing the integration of the "cargo" element and converting cellular heterozygosity to homozygosity [39]. Such gene drives follow super-Mendelian inheritance (above 50%) allowing biased propagation of desired genetic elements within a population and eventually the entire species [38,40].…”
Section: Crispr/cas Gene Editingmentioning
confidence: 99%