History 2000-today
|
Super-Mendelian inheritance mediated by CRISPR-Cas9 in the female mouse germlineGrunwald, HAG, V. M.; Poplawski, G.; Xu, X. R. S.; Bier, E.; Cooper, K. L., Nature, 566:105-109. 2019.
A gene drive biases the transmission of one of the two copies of a gene such that it is inherited more frequently than by random segregation. Highly efficient gene drive systems have recently been developed in insects, which leverage the sequence-targeted DNA cleavage activity of ... |
|
A CRISPR–Cas9 gene drive targeting doublesex causes complete population suppression in caged Anopheles gambiae mosquitoesKyrou, KH, Andrew M.; Galizi, Roberto; Kranjc, Nace; Burt, Austin; Beaghton, Andrea K.; Nolan, Tony; Crisanti, Andrea, Nature Biotechnology, 36:1062–1066. 2018.
In the human malaria vector Anopheles gambiae, the gene doublesex (Agdsx) encodes two alternatively spliced transcripts, dsx-female (AgdsxF) and dsx-male (AgdsxM), that control differentiation of the two sexes. The female transcript, unlike the male, contains an exon (exon 5) ... |
|
Gene Drives on the Horizon: Advancing Science, Navigating Uncertainty, and Aligning Research with Public ValuesU. S. National Academies of Sciences, Engineering, and Medicine, The National Academies Press, 2016.
Scientists have studied gene drives for more than 50 years. The development of a powerful genome editing tool in 2012, CRISPR/Cas9,1 led to recent breakthroughs in gene drive research that built on that half century’s worth of knowledge, and stimulated new discussion of the ... |
|
A CRISPR-Cas9 gene drive system-targeting female reproduction in the malaria mosquito vector Anopheles gambiaeHammond, AG, R.; Kyrou, K.; Simoni, A.; Siniscalchi, C.; Katsanos, D.; Gribble, M.; Baker, D.; Marois, E.; Russell, S.; Burt, A.; Windbichler, N.; Crisanti, A.; Nolan, T., Nature Biotechnology, 34:78-83. 2016.
Gene drive systems that enable super-Mendelian inheritance of a transgene have the potential to modify insect populations over a timeframe of a few years. We describe CRISPR-Cas9 endonuclease constructs that function as gene drive systems in Anopheles gambiae, the main vector for ... |
|
The mutagenic chain reaction: A method for converting heterozygous to homozygous mutationsGantz, VMB, Ethan, Science, 348:442. 2015.
Loss-of-function mutations may only produce a mutant phenotype when both copies of the gene are mutated. Gantz and Bier developed a method they call mutagenic chain reaction (MCR) that autocatalytically produces homozygous mutations. MCR uses the initial mutated allele to cause a ... |
|
Concerning RNA-guided gene drives for the alteration of wild populationsEsvelt, KMS, Andrea L.; Catteruccia, Flaminia; Church, George M., eLife, 3:e03401. 2014.
Gene drives may be capable of addressing ecological problems by altering entire; populations of wild organisms, but their use has remained largely theoretical due to technical; constraints. Here we consider the potential for RNA-guided gene drives based on the CRISPR; nuclease ... |
|
Field performance of engineered male mosquitoesA. F. Harris, D. Nimmo, A. R. McKemey, N. Kelly, S. Scaife, C. A. Donnelly, C. Beech, W. D. Petrie and L. Alphey, Nature Biotechnology, 29:1034-1037. 2011.
Mass-release of sterile male mosquitoes is a promising option for controlling dengue and malaria, but it has never been shown that lab-raised transgenic males can compete effectively with their wild counterparts outside laboratory conditions. Promising results from a restricted ... |
|
Field performance of engineered male mosquitoesA. F. Harris, D. Nimmo, A. R. McKemey, N. Kelly, S. Scaife, C. A. Donnelly, C. Beech, W. D. Petrie and L. Alphey, Nature Biotechnology, 29:1034-1037. 2011.
Mass-release of sterile male mosquitoes is a promising option for controlling dengue and malaria, but it has never been shown that lab-raised transgenic males can compete effectively with their wild counterparts outside laboratory conditions. Promising results from a restricted ... |
|
A synthetic homing endonuclease-based gene drive system in the human malaria mosquitoWindbichler, NM, M.; Papathanos, P. A.; Thyme, S. B.; Li, H.; Ulge, U. Y.; Hovde, B. T.; Baker, D.; Monnat, R. J.; Burt, A.; Crisanti, A., Nature, 473:212-215. 2011.
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 specificity(1-3). The development of ... |
|
Homing endonuclease mediated gene targeting in Anopheles gambiae cells and embryosWindbichler, NP, P. A.; Catteruccia, F.; Ranson, H.; Burt, A.; Crisanti, A., Nucleic Acids Research, 35:5922-5933. 2007.
Homing endonuclease genes (HEGs) are selfish genetic elements that combine the capability to selectively disrupt specific gene sequences with the ability to rapidly spread from a few individuals to an entire population through homologous recombination repair events. Because of ... |
|
A synthetic maternal-effect selfish genetic element drives population replacement in DrosophilaChen, CHH, H. X.; Ward, C. M.; Su, J. T.; Schaeffer, L. V.; Guo, M.; Hay, B. A., Science, 316:597-600. 2007.
One proposed strategy for controlling the transmission of insect-borne pathogens uses a drive mechanism to ensure the rapid spread of transgenes conferring disease refractoriness throughout wild populations. Here, we report the creation of maternal-effect selfish genetic elements ... |
|
Site-specific selfish genes as tools for the control and genetic engineering of natural populationsBurt, A, Proceedings of the Royal Society B-Biological Sciences, 270:921-928. 2003.
Site-specific selfish genes exploit host functions to copy themselves into a defined target DNA sequence, and include homing endonuclease genes, group II introns and some LINE-like transposable elements. If such genes can be engineered to target new host sequences, then they can ... |
