New genetic-editing technique to alter the traits and fates of wild populations
New genetic-editing technique to alter the traits and fates of wild populations
Tags: Biodiversity/Conservation, CRISPR, Ecology, Invasive species, Other mammalsLori Dajose, CalTech, 2024.
Gene drives are a common technology used to insert a novel gene into a population—for example, to make mosquitos resistant to malaria. They can also be used to modify existing genes, such as making herbicide-resistant weeds susceptible to herbicides once again or even to suppress invasive populations. However, gene drives often face social concerns and regulatory challenges because they involve the spread of transgenes (genes that have been transferred and integrated into an organism’s DNA) to high frequency.
The new technique, called an Allele Sail, uses the CRISPR/Cas9 genome-editing technology to introduce a targeted “editor” into a population at low frequency. This editor itself does not increase in frequency as organisms reproduce, however, any organism that mates with an editor-carrying organism will become altered at the genomic position targeted by the editor, passing the altered version (called an allele) of the gene down to its own offspring. In this way, the technique mimics the natural genetic process of passing down genes and mutations, and can be used in a wider range of species than traditional gene drive approaches.
“Imagine you have a big room of bouncing balls, most of them white but a few are red,” says Bruce Hay, professor of biology and biological engineering. “Any time a red ball—the editor—bumps into a white ball, it turns the white ball pink—the edit. As the balls bounce around, over time, more and more of them turn pink.”