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Literature DB >> 33357060

Control of malaria-transmitting mosquitoes using gene drives.

Abstract

Gene drives are selfish genetic elements that can be re-designed to invade a population and they hold tremendous potential for the control of mosquitoes that transmit disease. Much progress has been made recently in demonstrating proof of principle for gene drives able to suppress populations of malarial mosquitoes, or to make them refractory to the Plasmodium parasites they transmit. This has been achieved using CRISPR-based gene drives. In this article, I will discuss the relative merits of this type of gene drive, as well as barriers to its technical development and to its deployment in the field as malaria control. This article is part of the theme issue 'Novel control strategies for mosquito-borne diseases'.

Entities: Chemical

Keywords: CRISPR; anopheles; gene drive; mosquito; transgenic; vector control

Mesh：

Year: 2020 PMID： 33357060 PMCID： PMC7776936 DOI： 10.1098/rstb.2019.0803

Source DB: PubMed Journal: Philos Trans R Soc Lond B Biol Sci ISSN： 0962-8436 Impact factor: 6.237

53 in total

1. Can transposable elements be used to drive disease refractoriness genes into vector populations?

Authors: M G Kidwell; J M Ribeiro
Journal: Parasitol Today Date: 1992-10

2. Pathway to Deployment of Gene Drive Mosquitoes as a Potential Biocontrol Tool for Elimination of Malaria in Sub-Saharan Africa: Recommendations of a Scientific Working Group^†.

Authors: Stephanie James; Frank H Collins; Philip A Welkhoff; Claudia Emerson; H Charles J Godfray; Michael Gottlieb; Brian Greenwood; Steve W Lindsay; Charles M Mbogo; Fredros O Okumu; Hector Quemada; Moussa Savadogo; Jerome A Singh; Karen H Tountas; Yeya T Touré
Journal: Am J Trop Med Hyg Date: 2018-06 Impact factor: 2.345

3. Rules of the road for insect gene drive research and testing.

Authors: Zach Adelman; Omar Akbari; John Bauer; Ethan Bier; Cinnamon Bloss; Sarah R Carter; Craig Callender; Adriana Costero-Saint Denis; Peter Cowhey; Brinda Dass; Jason Delborne; Mary Devereaux; Peter Ellsworth; Robert M Friedman; Valentino Gantz; Clark Gibson; Bruce A Hay; Mark Hoddle; Anthony A James; Stephanie James; Lyric Jorgenson; Michael Kalichman; John Marshall; William McGinnis; Jack Newman; Alan Pearson; Hector Quemada; Larisa Rudenko; Anthony Shelton; Joseph M Vinetz; Jennifer Weisman; Brenda Wong; Chris Wozniak
Journal: Nat Biotechnol Date: 2017-08-08 Impact factor: 54.908

4. Highly efficient Cas9-mediated gene drive for population modification of the malaria vector mosquito Anopheles stephensi.

Authors: Valentino M Gantz; Nijole Jasinskiene; Olga Tatarenkova; Aniko Fazekas; Vanessa M Macias; Ethan Bier; Anthony A James
Journal: Proc Natl Acad Sci U S A Date: 2015-11-23 Impact factor: 11.205

5. Genetic diversity of the African malaria vector Anopheles gambiae.

Authors:
Journal: Nature Date: 2017-11-29 Impact factor: 49.962

6. Guidance on stakeholder engagement practices to inform the development of area-wide vector control methods.

Authors: Delphine Thizy; Claudia Emerson; Johanna Gibbs; Sarah Hartley; Lydia Kapiriri; James Lavery; Jeantine Lunshof; Janine Ramsey; Julie Shapiro; Jerome Amir Singh; Lea Pare Toe; Isabelle Coche; Benjamin Robinson
Journal: PLoS Negl Trop Dis Date: 2019-04-25

7. Cleave and Rescue, a novel selfish genetic element and general strategy for gene drive.

Authors: Georg Oberhofer; Tobin Ivy; Bruce A Hay
Journal: Proc Natl Acad Sci U S A Date: 2019-02-13 Impact factor: 11.205

8. Adaptive introgression between Anopheles sibling species eliminates a major genomic island but not reproductive isolation.

Authors: Chris S Clarkson; David Weetman; John Essandoh; Alexander E Yawson; Gareth Maslen; Magnus Manske; Stuart G Field; Mark Webster; Tiago Antão; Bronwyn MacInnis; Dominic Kwiatkowski; Martin J Donnelly
Journal: Nat Commun Date: 2014-06-25 Impact factor: 14.919

9. The creation and selection of mutations resistant to a gene drive over multiple generations in the malaria mosquito.

Authors: Andrew M Hammond; Kyros Kyrou; Marco Bruttini; Ace North; Roberto Galizi; Xenia Karlsson; Nace Kranjc; Francesco M Carpi; Romina D'Aurizio; Andrea Crisanti; Tony Nolan
Journal: PLoS Genet Date: 2017-10-04 Impact factor: 5.917

Review 10. Toward the Definition of Efficacy and Safety Criteria for Advancing Gene Drive-Modified Mosquitoes to Field Testing.

Authors: Stephanie L James; John M Marshall; George K Christophides; Fredros O Okumu; Tony Nolan
Journal: Vector Borne Zoonotic Dis Date: 2020-03-09 Impact factor: 2.133

8 in total

1. Novel control strategies for mosquito-borne diseases.

Authors: Robert T Jones; Thomas H Ant; Mary M Cameron; James G Logan
Journal: Philos Trans R Soc Lond B Biol Sci Date: 2020-12-28 Impact factor: 6.237

Review 2. Selective targeting of biting females to control mosquito-borne infectious diseases.

Authors: Bianca B Kojin; Austin Compton; Zach N Adelman; Zhijian Tu
Journal: Trends Parasitol Date: 2022-06-13

Review 3. New weapons to fight malaria transmission: A historical view.

Authors: Wei Huang; Sung-Jae Cha; Marcelo Jacobs-Lorena
Journal: Entomol Res Date: 2022-05-02 Impact factor: 1.358

Review 4. Using ecological observations to improve malaria control in areas where Anopheles funestus is the dominant vector.

Authors: Najat F Kahamba; Marceline Finda; Halfan S Ngowo; Betwel J Msugupakulya; Francesco Baldini; Lizette L Koekemoer; Heather M Ferguson; Fredros O Okumu
Journal: Malar J Date: 2022-06-02 Impact factor: 3.469

8. Compatibility between snails and schistosomes: insights from new genetic resources, comparative genomics, and genetic mapping.

Authors: Lijing Bu; Daibin Zhong; Lijun Lu; Eric S Loker; Guiyun Yan; Si-Ming Zhang
Journal: Commun Biol Date: 2022-09-09