Perspectives
Opinions on and about gene drive technologies and their uses.
Gene Drives Could Fight Malaria and Other Global Killers but Might Have Unintended Consequences
Tags: Anopheles, Gene drive, Gene drive synthetic, Malaria, Population modification/replacement, Population suppressionM. Cobb, Scientific American, 2023.
Every year more than 600,000 people die from mosquito-transmitted malaria, most of them children under age five. Some insects that are disease vectors, such as mosquitoes, are currently expanding their range around the world, bringing new threats. Genetic engineering can fix this ...
CRISPR Gene Drives: A Weapon of Mass Destruction?
Tags: CRISPR, Gene drive, Gene drive synthetic, Population suppressionJ. Ng, Medium, 2022.
Gene drives allow scientists to “drive” new genes — and their associated traits — into wildlife populations at unprecedented rates. Here’s a simplified explanation of how gene drives work. In normal sexual reproduction between species with two copies of chromosomes, ...
Genes drive organisms and slippery slopes
Tags: CRISPR, Ethics, Gene drive, RegulationD. B. Resnik, R. F. Medina, F. Gould, G. Church and J. Kuzma, Pathog Glob Health, 2022.
The bioethical debate about using gene drives to alter or eradicate wild populations has focused mostly on issues concerning short-term risk assessment and management, governance and oversight, and public and community engagement, but has not examined big-picture- 'where is this ...
Gene drive-mediated population elimination for biodiversity conservation. When you come to a fork in the road, take it
Tags: Biodiversity/Conservation, Gene drive, Gene drive synthetic, Population suppression, Rodents, Transmission distortionB. A. Hay and M. Guo, Proceedings of the National Academy of Sciences, 119:e2218020119. 2022.
How can the ability of t w2 to spread at super-Mendelian frequencies be utilized even if it is unable to directly drive the population to an unfit state? Gierus, Birand, and colleagues proposed placing Cas9 and a gRNA at a neutral position within the t haplotype. In this hybrid ...
Gene editing and agrifood systems
Tags: Agriculture, CRISPR, Gene drive, Gene drive synthetic, Gene editing, Governance, Policy, RegulationFAO, 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. ...
Exploring the value of a global gene drive project registry
Tags: Gene drive, Gene drive synthetic, Governance, Policy, Risk and safety, Stakeholder engagementR. 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 ...
Good news in the fight against vector-borne diseases
Tags: Aedes, Genetic biocontrol, Oxitec, Sterile insect technique (SIT)K. Magori, 2022.
At the turn of the century, several research groups attempted to apply modern genetic methodologies to achieve similar outcomes without the need for irradiation and the resulting fitness costs. Luke Alphey and his colleagues at Oxford University developed a dominant lethal ...
No Environmental Release of Gene Drive Organisms
Tags: Gene drive, Policy, Regulation, Risk and safetyAnonymous, 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 ...
Should we use a genetic weapon against mosquitoes carrying malaria?
Tags: Africa, Gene drive, Gene drive synthetic, Genetic biocontrol, Malaria, Target malariaT. H. Saey, ScienceNewsExplores, 2022.
In a large laboratory cage, a male mosquito carries a genetic weapon that could launch the destruction of his species. That loss could also mean the end of the parasite that causes malaria. The weapon? A self-replicating bit of DNA known as a gene drive. It’s one of the most ...
Driving lessons: a brief (personal) history of centromere drive
Tags: History, Transmission distortionH. S. Malik, Genetics, 2022.
Meiosis is an important specialized cell division in many eukaryotic species, including fungi, plants, and animals. Meiosis results in the production of haploid gametes starting from a diploid cell via 1 round of replication and 2 rounds of cell division. In an influential ...
SHOULD WE CREATE GENE DRIVE GREY SQUIRRELS
Tags: Biodiversity/Conservation, Gene drive, Gene drive syntheticS. 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 ...
WORLDWIDE: EXPERTS ON GENE DRIVES
Tags: Gene drive, Gene drive synthetic, Policy, Risk and safety, Risk assessmentStop Gene Drive, STOP GENE DRIVES, 2022.
We are travelling the world speaking to some of the world’s leading thinkers, activists and academics on the impact of gene drives. We interviewed more than 20 experts from around the world
Externalities modulate the effectiveness of the Wolbachia release programme
Tags: Aedes, Arbovirus, Dengue, Modeling, Population modification/replacement, WolbachiaE. E. Ooi and A. Wilder-Smith, The Lancet Infectious Diseases, 2022.
Despite the remarkable outcome in Yogyakarta, the wMel approach also has some challenges. In particular, the extent to which ecological, weather, and other external factors influence the dissemination and establishment of wMel in complex urban environments remains unclear. ...
Extreme GM “extinction technology” of gene drives presented as “natural”
Tags: Gene drive, Gene drive synthetic, Population modification/replacementGM Watch, GM Watch, 2022.
Now similar Orwellian moves are happening in the area of gene drives. A gene drive is a genetic engineering technology that forces a particular genetic modification through a population by changing the natural rules of inheritance, usually to ensure that it is increasingly – ...
Humans Have a Long History of Making ‘Very Bad Decisions’ to Save Animals
Tags: Biodiversity/Conservation, Gene drive, Gene drive synthetic, Genetic biocontrol, Genetically modified mosquitoes, MalariaT. McDonnell, The New York Times, 2022.
Environmental reporter Tim McDonnell on the potential negative consequences of animal conservation efforts. McDonnell highlights Target Malaria’s research on gene drive to “eliminate malaria-carrying mosquitos” and quotes New Zealand researcher Philipp Messer saying that ...
Toward product-based regulation of crops
Tags: Agriculture, Gene editing, Genetically modified organisms, Policy, RegulationF. Gould, R. M. Amasino, D. Brossard, C. R. Buell, R. A. Dixon, J. B. Falck-Zepeda, M. A. Gallo, K. E. Giller, L. L. Glenna, T. Griffin, D. Magraw, C. Mallory-Smith, K. V. Pixley, E. P. Ransom, D. M. Stelly and C. N. Stewart, Science, 377:1051-1053. 2022.
Current process-based approaches to regulation are no longer fit for purpose Much effort has been expended globally over the past four decades to craft and update country-specific and multinational safety regulations that can be applied to crops developed by genetic engineering ...
Outbreaks of arboviruses, biotechnological innovations and vector control: facing the unexpected
Tags: Aedes, Arbovirus, Dengue, Genetic biocontrol, Genetically modified mosquitoesC. Boëte, Innovative Strategies for Vector Control, 6:219-231. 2022.
Outbreaks of arboviruses have occurred in the last decades in many places around the world and a variety of responses have been taken in order to control them. Responses ranged from vaccination campaigns to the use of conventional vector control methods. Innovative approaches ...
Natural selfish genetic elements should not be defined as gene drives
Tags: Gene drive, Policy, Regulation, Risk and safetyM. A. Wells and R. A. Steinbrecher, Proceedings of the National Academy of Sciences, 119:e2201142119. 2022.
Gene drives are increasingly discussed in the political realm,and how the term is defined therefore has important impli-cations. The opinion piece from Alphey et al. (1) identifies alack of consensus on the definition and makes explicitchanges in how the terminology is being used ...
What can we learn from selfish loci that break Mendel’s law?
Tags: Fruit fly, Selfish genetic elements, Transmission distortionS. E. Zanders, PLOS Biology, 20:e3001700. 2022.
Mendel’s law of segregation provides a critical foundation for genetic inquiry It is not, however, without exceptions Historically, 2 such exceptions (sex chromosome linkage and chromosome missegregation in meiosis) were used by Drosophila geneticists to help demonstrate ...
Mendel’s laws of heredity on his 200th birthday: What have we learned by considering exceptions?
Tags: History, Transmission distortionJ. B. Wolf, A. C. Ferguson-Smith and A. Lorenz, Heredity, 129:1-3. 2022.
Violations of Mendel’s laws can generically be referred to as ‘non-Mendelian inheritance’. However, from that broad perspective, nearly all inheritance systems would show non-Mendelian inheritance (at least to some degree). To hold exactly, Mendel’s laws impose strict ...
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