Real-World 'Jurassic Park' Startup Argues Not De-Extincting Animals Would Be Even Scarier (rollingstone.com) 54
George Church was part of the team that pioneered CRISPR gene editing. In 2021 he co-founded a kind of real-world "Jurassic Park" — Colossal Biosciences, a biotech startup working to de-extinct the Woolly Mammoth.
For the 30th anniversary of the movie Jurassic Park, Rolling Stone brought in Colossal's co-founder and CEO, Ben Lamm, to share how the movie inspired and influenced their plans. Lamm writes that in 1993 he was 11 years old when he'd first seen the movie Jurassic Park. And even then, "Yes, as an 11-year-old I thought, what if dinosaurs could be real?"
Lamm says he's now excited at "not just de-extincting animals but at the possibility for endless discoveries that would arise from the pursuit of doing so..." When I first told my lawyer that I was interested in starting Colossal and bringing back the woolly mammoth, he asked me if I had read Michael Crichton's book or seen Spielberg's Jurassic Park movie. Since then, it's a question that has come up in nearly every meeting with investors, journalists, and lawyers. I have, which meant that I spent a number of years thinking about if we should de-extinct animals before I set out to figure out if we could. (Thanks, Dr. Ian Malcolm.) Before ever setting foot in a lab, I spent many years and countless hours thinking about the moral questions at the heart of the story.
And, with each successive year, I watched, heard, and learned about more and more animals dying due to climate change — a modern-day extinction. I came to the conclusion that the question is no longer should we practice de-extinction science but how long do we have to get it right... [T]he scary vision of the future isn't one where dinosaurs escape Isla Nubar and fly to the mainland, putting a healthy planet at risk, but instead a future where there aren't enough animals left to support food webs and ecosystems. And that includes humans, too... [I]t is our belief that it is possible to safeguard against or even stop that fatalist future vision using a similar approach in the original movie with some slight variations. It all goes back to genetics and a lot of what I learned about when I first met George...
In the same way that wireless headsets, CAT scans, LEDs, the computer mouse, and thermal blankets are all products of going to the moon, de-extinction efforts have created breakthroughs already for both conservation and human healthcare. In Colossal's first few years of work, our woolly mammoth research alone has not only accelerated genetic rescue in elephants, but also, it is working to cure a deadly elephant virus that kills 25% of all baby elephants worldwide each year. The de-extinction toolkit is also establishing a genetic backup of all living elephant species, and building the necessary tools for elephant cloning and gestation. And now, unlike Dr. Hammond, who bought an island and hid his experiment from the world, governments are coming to us asking if we can help them to restore their critically endangered animals and help safeguard their keystone species.
Lamm points out that you can get good DNA samples from specimens frozen in permafrost, skeletons preserved in caves, and from preserved specimens in museums.
But "You can't get DNA from amber. Trust us. It's porous and doesn't preserve well."
For the 30th anniversary of the movie Jurassic Park, Rolling Stone brought in Colossal's co-founder and CEO, Ben Lamm, to share how the movie inspired and influenced their plans. Lamm writes that in 1993 he was 11 years old when he'd first seen the movie Jurassic Park. And even then, "Yes, as an 11-year-old I thought, what if dinosaurs could be real?"
Lamm says he's now excited at "not just de-extincting animals but at the possibility for endless discoveries that would arise from the pursuit of doing so..." When I first told my lawyer that I was interested in starting Colossal and bringing back the woolly mammoth, he asked me if I had read Michael Crichton's book or seen Spielberg's Jurassic Park movie. Since then, it's a question that has come up in nearly every meeting with investors, journalists, and lawyers. I have, which meant that I spent a number of years thinking about if we should de-extinct animals before I set out to figure out if we could. (Thanks, Dr. Ian Malcolm.) Before ever setting foot in a lab, I spent many years and countless hours thinking about the moral questions at the heart of the story.
And, with each successive year, I watched, heard, and learned about more and more animals dying due to climate change — a modern-day extinction. I came to the conclusion that the question is no longer should we practice de-extinction science but how long do we have to get it right... [T]he scary vision of the future isn't one where dinosaurs escape Isla Nubar and fly to the mainland, putting a healthy planet at risk, but instead a future where there aren't enough animals left to support food webs and ecosystems. And that includes humans, too... [I]t is our belief that it is possible to safeguard against or even stop that fatalist future vision using a similar approach in the original movie with some slight variations. It all goes back to genetics and a lot of what I learned about when I first met George...
In the same way that wireless headsets, CAT scans, LEDs, the computer mouse, and thermal blankets are all products of going to the moon, de-extinction efforts have created breakthroughs already for both conservation and human healthcare. In Colossal's first few years of work, our woolly mammoth research alone has not only accelerated genetic rescue in elephants, but also, it is working to cure a deadly elephant virus that kills 25% of all baby elephants worldwide each year. The de-extinction toolkit is also establishing a genetic backup of all living elephant species, and building the necessary tools for elephant cloning and gestation. And now, unlike Dr. Hammond, who bought an island and hid his experiment from the world, governments are coming to us asking if we can help them to restore their critically endangered animals and help safeguard their keystone species.
Lamm points out that you can get good DNA samples from specimens frozen in permafrost, skeletons preserved in caves, and from preserved specimens in museums.
But "You can't get DNA from amber. Trust us. It's porous and doesn't preserve well."