Consumer genetic testing company 23andMe announced on Wednesday that GlaxoSmithKline purchased a $300 million stake in the company, allowing the pharmaceutical giant to use 23andMe’s trove of genetic data to develop new drugs — and raising new privacy concerns for consumers.
23andMe is partnering with big pharma company GlaxoSmithKline. Here’s what that means for consumer rights and genetic privacy.
As 5G electrifies a world of trillions of sensors and devices, we’re about to live in a world where anyone anywhere can have access to the world’s knowledge, crowdfund ready capital across 8 billion potential investors, and 3D print on the cloud.
And as the population of online users doubles, we’re about to witness perhaps the most historic acceleration of progress and technological innovation known to man.
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Posted in futurism
While the rest of the world debates the ethics of designer babies, a team at the University of Massachusetts Medical School (UMass) have shown that we might not need CRISPR to change the genes of future generations. Their paper, released this week in the journal Developmental Cell, shows that things like diet and stress might affect some crucial genetic components of sperm, and that these tiny changes have real effects on how babies develop.
The same way rockets bound for outer space contain “payloads” like satellites, or astronauts who battle giant balls of urine, sperm are also like little rockets containing their own cargo: “small RNAs.” This study found that not only do RNA sequences play a crucial role in how genes get expressed early on in human development, but they can also be radically changed by the lifestyles of fathers. Things like diet, and in particular, stress can change the makeup of this crucial RNA cargo and lead to observable changes in offspring, says researcher Colin Conine, Ph.D., at UMass Medical School’s Rando Lab.
“Labs all over the world have been able to link changes in dad’s lifestyle to changes in RNA in the sperm, and then that leads to phenotypes in the offspring,” Conine tells Inverse. “Our study was one of the first to really look at how changes small RNAs affect early development. We wanted to ask, what are the first steps that lead to these phenotypes down the road?”
