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A male-killing gene encoded by a symbiotic virus of Drosophila

D. Kageyama, T. Harumoto, K. Nagamine, A. Fujiwara, T. N. Sugimoto, A. Jouraku, M. Tamura, T. K. Katoh and M. Watada,  Nature Communications,  14:1357. 2023.
In most eukaryotes, biparentally inherited nuclear genomes and maternally inherited cytoplasmic genomes have different evolutionary interests. Strongly female-biased sex ratios that are repeatedly observed in various arthropods often result from the male-specific lethality ...
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Alleviating the burden of malaria with gene drive technologies? A biocentric analysis of the moral permissibility of modifying malaria mosquitoes

N. de Graeff, K. R. Jongsma and A. L. Bredenoord,  Journal of Medical Ethics,  2023.
Gene drive technologies (GDTs) have been proposed as a potential new way to alleviate the burden of malaria, yet have also raised ethical questions. A central ethical question regarding GDTs relates to whether it is morally permissible to intentionally modify or eradicate ...
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Next-generation CRISPR gene-drive systems using Cas12a nuclease

S. Sanz Juste, E. M. Okamoto, X. Feng and V. L. Del Amo,  bioRxiv,  2023.02.20.529271. 2023.
One method for reducing the impact of vector-borne diseases is through the use of CRISPR-based gene drives, which manipulate insect populations due to their ability to rapidly propagate desired genetic traits into a target population. However, all current gene drives employ a ...
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From the Lab to the Field: Long-Distance Transport of Sterile Aedes Mosquitoes

H. Maïga, M. T. Bakhoum, W. Mamai, G. Diouf, N. S. Bimbilé Somda, T. Wallner, C. Martina, S. S. Kotla, O. B. Masso, H. Yamada, B. B. D. Sow, A. G. Fall and J. Bouyer,  Insects,  14. 2023.
Pilot programs of the sterile insect technique (SIT) against Aedes aegypti may rely on importing significant and consistent numbers of high-quality sterile males from a distant mass rearing factory. As such, long-distance mass transport of sterile males may contribute to meet ...
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Review of gene drive modelling and implications for risk assessment of gene drive organisms

J. L. Frieß, C. R. Lalyer, B. Giese, S. Simon and M. Otto,  Ecological Modelling,  478:110285. 2023.
Synthetic gene drive (GD) systems constitute a form of novel invasive environmental biotechnology with far-reaching consequences beyond those of other known genetically modified organisms (GMOs). During the last 10 years, the development of GD systems has been closely linked to ...
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The suppressive potential of a gene drive in populations of invasive social wasps is currently limited

A. B. Meiborg, N. R. Faber, B. A. Taylor, B. A. Harpur and G. Gorjanc,  Scientific Reports,  13:1640. 2023.
Social insects are very successful invasive species, and the continued increase of global trade and transportation has exacerbated this problem. The yellow-legged hornet, Vespa velutina nigrithorax (henceforth Asian hornet), is drastically expanding its range in Western Europe. ...
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Assessing potential hybridization between a hypothetical gene drive-modified Drosophila suzukii and nontarget Drosophila species

S. Wolf, J. Collatz, J. Enkerli, F. Widmer and J. Romeis,  Risk Analysis,  2023.
Genetically engineered gene drives (geGD) are potentially powerful tools for suppressing or even eradicating populations of pest insects. Before living geGD insects can be released into the environment, they must pass an environmental risk assessment to ensure that their release ...
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Bypassing Mendel’s First Law: Transmission Ratio Distortion in Mammals

G. Friocourt, A. Perrin, P. A. Saunders, E. Nikalayevich, C. Voisset, C. Coutton, G. Martinez and F. Morel,  International Journal Molecular Sciences,  24. 2023.
Mendel's law of segregation states that the two alleles at a diploid locus should be transmitted equally to the progeny. A genetic segregation distortion, also referred to as transmission ratio distortion (TRD), is a statistically significant deviation from this rule. TRD has ...
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Environmental, Socio-economic, and Health Impact Assessment (ESHIA) for Gene Drive Organisms

isaaa Inc. and Outreach Network for Gene Drive Research,  ISAAA,  2023.
Understanding the possible positive and negative impacts that gene drive organisms could have on the environment and people is essential before these technologies are considered for release, whether for research purposes or for use. Different impacts are assessed through ...
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Gene editing and agrifood systems

FAO,  FAO,  2022.
Gene-editing technologies represent a promising new tool for plant and animal breeding in low- and middle-income countries. They enhance precision and efficiency over current breeding methods and could lead to rapid development of improved plant varieties and animal breeds. ...
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Exploring the value of a global gene drive project registry

R. I. Taitingfong, C. Triplett, V. N. Vásquez, R. M. Rajagopalan, R. Raban, A. Roberts, G. Terradas, B. Baumgartner, C. Emerson, F. Gould, F. Okumu, C. E. Schairer, H. C. Bossin, L. Buchman, K. J. Campbell, A. Clark, J. Delborne, K. Esvelt, J. Fisher, R.,  Nature Biotechnology,  2022.
Recent calls to establish a global project registry before releasing any gene-drive-modified organisms (GDOs) have suggested a registry could be valuable to coordinate research, collect data to monitor and evaluate potential ecological impacts, and facilitate transparent ...
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No Environmental Release of Gene Drive Organisms

Anonymous,  STOP GENE DRIVES,  2022.
We urge governments to prevent the environmental release of gene drive organisms and to establish a global moratorium on the release of gene drive organisms at the UN Convention on Biological Diversity (CBD). Gene drives work against natural rules of inheritance forcing nearly ...
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A CRISPR endonuclease gene drive reveals distinct mechanisms of inheritance bias

S. A. N. Verkuijl, E. Gonzalez, M. Li, J. X. D. Ang, N. P. Kandul, M. A. E. Anderson, O. S. Akbari, M. B. Bonsall and L. Alphey,  Nature Communications,  13:7145. 2022.
CRISPR/Cas gene drives can bias transgene inheritance through different mechanisms. Homing drives are designed to replace a wild-type allele with a copy of a drive element on the homologous chromosome. In Aedes aegypti, the sex-determining locus is closely linked to the white ...
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SHOULD WE CREATE GENE DRIVE GREY SQUIRRELS

S. Hartley and T. Law,  GeneDriveGovernance.org,  2022.
UK scientists have proposed gene drive as a management tool to control grey squirrels. Now is a good time to talk about this emerging technology because the hopes and concerns of experts, stakeholders and the public can help to determine if or how it might be developed. To help ...
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Leveraging a natural murine meiotic drive to suppress invasive populations

L. Gierus, A. Birand, M. D. Bunting, G. I. Godahewa, S. G. Piltz, K. P. Oh, A. J. Piaggio, D. W. Threadgill, J. Godwin, O. Edwards, P. Cassey, J. V. Ross, T. A. A. Prowse and P. Q. Thomas,  Proceedings of the National Academy of Sciences,  119:e2213308119. 2022.
Invasive rodents are a major cause of environmental damage and biodiversity loss, particularly on islands. Unlike insects, genetic biocontrol strategies including population-suppressing gene drives with biased inheritance have not been developed in mice. Here, we demonstrate a ...
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New self-sexing Aedes aegypti strain eliminates barriers to scalable and sustainable vector control for governments and communities in dengue-prone environments

S. A. M. Spinner, Z. H. Barnes, A. M. Puinean, P. Gray, T. Dafa’alla, C. E. Phillips, C. Nascimento de Souza, T. F. Frazon, K. Ercit, A. Collado, N. Naish, E. Sulston, G. C. Ll. Phillips, K. K. Greene, M. Poletto, B. D. Sperry, S. A. Warner, N. R. Rose, G,  Frontiers in Bioengineering and Biotechnology,  10. 2022.
For more than 60 years, efforts to develop mating-based mosquito control technologies have largely failed to produce solutions that are both effective and scalable, keeping them out of reach of most governments and communities in disease-impacted regions globally. High pest ...
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Anopheles homing suppression drive candidates exhibit unexpected performance differences in simulations with spatial structure

S. E. Champer, I. K. Kim, A. G. Clark, P. W. Messer and J. Champer,  eLife,  11:e79121. 2022.
Recent experiments have produced several Anopheles gambiae homing gene drives that disrupt female fertility genes, thereby eventually inducing population collapse. Such drives may be highly effective tools to combat malaria. One such homing drive, based on the zpg promoter ...
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Points to consider in seeking biosafety approval for research, testing, and environmental release of experimental genetically modified biocontrol products during research and development

W. K. Tonui, V. Ahuja, C. J. Beech, J. B. Connolly, B. Dass, D. C. M. Glandorf, et al.,  Transgenic Research,  2022.
Novel genetically modified biological control products (referred to as “GM biocontrol products”) are being considered to address a range of complex problems in public health, conservation, and agriculture, including preventing the transmission of vector-borne parasitic and ...
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Daisy-chain gene drives: The role of low cut-rate, resistance mutations, and maternal deposition

S. A. N. Verkuijl, M. A. E. Anderson, L. Alphey and M. B. Bonsall,  PLOS Genetics,  18:e1010370. 2022.
Author summary Reducing the harm of pest species by the introgression of traits into a wild population is often limited by the difficulties of mass rearing and release of modified individuals. Gene drives present an opportunity to substantially reduce the release frequencies ...
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Selfish evolution of placental hormones

G. Keegan and M. M. Patten,  Evolution, Medicine, and Public Health,  10:391-397. 2022.
We hypothesize that some placental hormones—specifically those that arise by tandem duplication of genes for maternal hormones—may behave as gestational drivers, selfish genetic elements that encourage the spontaneous abortion of offspring that fail to inherit them. Such ...
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