FT | Paul Dabrowa does not know if it is illegal to genetically modify beer at home in a way that makes it glow. The process involves taking DNA information from jellyfish and applying it to yeast cells, then using traditional fermenting methods to turn it into alcohol. But he is worried that it could be against the law given that it involves manipulating genetic material. “This stuff can be dangerous in the wrong hands, so I did that in an accredited lab,” he says, adding that he himself has only got as far as making yeast cells glow in a Petri dish. For the most part Dabrowa, a 41-year old Melbourne-based Australian who styles himself as a bit of an expert on most things, prefers to conduct his biohacking experiments in his kitchen. He does this mostly to find cures for his own health issues. Other times just for fun.
In recent years the community of hobbyists and amateurs Dabrowa considers his kin has been energised by the falling cost and growing accessibility to gene-editing tools such as Crispr. This has led to an explosion of unchecked experimentation in self-constructed labs or community facilities focused on biological self-improvement.
Despite a lack of formal microbiological training, Dabrowa has successfully used faecal transplants and machine learning to genetically modify his own gut bacteria to lose weight without having to change his daily regime. The positive results he’s seen on himself have encouraged him to try to commercialise the process with the help of an angel investor. He hopes one day to collect as many as 3,000 faecal samples from donors and share the findings publicly.
Much of his knowledge — including the complex bits related to gene-editing — was gleaned straight from the internet or through sheer strength of will by directly lobbying those who have the answers he seeks. “Whenever I was bored, I went on YouTube and watched physics and biology lectures from MIT [Massachusetts Institute of Technology],” he explains. “I tried the experiments at home, then realised I needed help and reached out to professors at MIT and Harvard. They were more than happy to do so.”
At the more radical end of the community are experimentalists such as Josiah Zayner, a former Nasa bioscientist, who became infamous online after performing gene therapy on himself in front of a live audience. Zayner’s start-up, The Odin — to which Crispr pioneer and professor of genetics at Harvard Medical School George Church is an adviser — has stubbornly resisted attempts to regulate its capacity to sell gene-editing kits online in the idealistic belief that everyone should be able to manage their own DNA.
These garage scientists might seem like a quirky new subculture but their rogue mindset is starting to generate consternation among those who specialise in managing biological threats in governments and international bodies.
In 2018 the states that are signatories to the 1972 Biological Weapons Convention (BWC) identified gene editing, gene synthesis, gene drives and metabolic pathway engineering as research that qualifies as “dual use”, meaning it is as easy to deploy for harmful purposes as it is for good.
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