In this video - Gene Drives: A Powerful and Controversial Genetic Technology - I look at gene drives. A genetic engineering technique that I find equally fascinating and scary.
Gene drives are a revolutionary and controversial advancement in genetic engineering. The process allows scientists to introduce self-propagating changes into an organism's genome, bypassing traditional Mendelian inheritance. By ensuring that specific mutations become homozygous in offspring, gene drives have the potential to rapidly spread these changes throughout populations.
The applications of gene drives are both promising and far-reaching. They could play a crucial role in eradicating mosquito-borne diseases such as malaria and Zika, which continue to claim millions of lives globally. Additionally, gene drives could help tackle drug-resistant fungal pathogens that pose a significant threat to human health and be employed to control or eliminate invasive species that disrupt ecosystems.
But how does this technology work?
Gene drives use CRISPR, a gene-editing tool. In a gene drive, the CRISPR machinery is introduced along with the desired mutation. This machinery then actively copies itself onto the corresponding chromosome, ensuring the organism becomes homozygous for the mutation. This process allows the mutation to "drive" through the population, even if it does not provide a traditional selective advantage.
However, the power of gene drives comes with significant ethical concerns. The ability to alter ecosystems and species at such a fundamental level raises the question: Just because we can, should we? That is, once you introduce a change in a system using gene drive, how could you change or reverse it, or stop it spreading to other organisms?
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