The mosquitoes have two important genetic additions. One is genes that manufacture antibodies whenever a female mosquito has a “blood meal.” Those antibodies bind to the parasite’s surface and halt its development. Yet normally, such an engineered mosquito would pass the genes only to exactly half its offspring, since there’s a 50 percent chance any chunk of DNA would come from its mate. And since the new genes probably don’t help a mosquito much, they’d quickly peter out in the wild.
That’s where CRISPR comes in. In a gene drive, components of the CRISPR system are added such that any normal gene gets edited and the genetic cargo is added to it as well. In James’s lab, practically all the mosquitoes ended up with the genetic addition, a result Esvelt calls “astounding.”
What worries Esvelt is that, in his opinion, the California researchers haven’t used strict enough safety measures. He says locked doors and closed cages aren’t enough. He wants them to install a genetic “reversal drive” so the change can be undone, if necessary. “An accidental release would be a disaster with potentially devastating consequences for public trust in science and especially gene-drive interventions,” he says. “No gene-drive intervention must ever be released without popular support.”
James says the experiment was safe since the mosquitoes are kept behind a series of locked, card-entry doors and because they aren’t native to California. If any escaped, they wouldn’t be able to reproduce.
- More Here
That’s where CRISPR comes in. In a gene drive, components of the CRISPR system are added such that any normal gene gets edited and the genetic cargo is added to it as well. In James’s lab, practically all the mosquitoes ended up with the genetic addition, a result Esvelt calls “astounding.”
What worries Esvelt is that, in his opinion, the California researchers haven’t used strict enough safety measures. He says locked doors and closed cages aren’t enough. He wants them to install a genetic “reversal drive” so the change can be undone, if necessary. “An accidental release would be a disaster with potentially devastating consequences for public trust in science and especially gene-drive interventions,” he says. “No gene-drive intervention must ever be released without popular support.”
James says the experiment was safe since the mosquitoes are kept behind a series of locked, card-entry doors and because they aren’t native to California. If any escaped, they wouldn’t be able to reproduce.
- More Here
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