Craig Venter in 2010 REUTERS/Jessica Rinaldi
Craig Venter, who played a leading role in the sequencing of the human genome and later in synthetic biology, has died.
, the not-for-profit research institute he founded, Venter died “following a brief hospitalization for unexpected side effects that arose from treatment of recently diagnosed cancer”. He was 79.
Venter leaves behind a vast and complicated legacy. He made major advances in genomics, fundamental biology and biodiversity. At the same time he drove the commercialisation of biological research, and promoted the idea of science as a competitive race.
His path into research was circuitous. He graduated from high school, having been an indifferent student who preferred to sail and surf. But he was then conscripted into the US Navy and sent to Vietnam as a war orderly. Venter later said that this experience inspired him to get his life together. Returning to the US he attended community college and then university, and by the 1980s he was working as a biomedical researcher for the National Institutes of ҹ1000 (NIH).
Venter became fascinated by the idea of reading the entire human genome. This vastly long sequence of DNA contains a huge amount of biological information, and variations in the sequence can contribute to the risk of diseases.
In his own work, Venter began using automated sequencing machines, which sped things up enormously. He began sequencing short chunks of DNA called expressed sequence tags, each of which represented a bit of an active gene. But he immediately ran into controversy after announcing that the , despite having no idea what any of them did. It was the first of many such arguments.
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, but Venter felt that its chosen methods were too slow. So in 1998 he founded Celera, a commercial company, and set out to complete the genome ahead of the publicly-funded HGP.
The HGP was using Sanger sequencing, in which the genome was first mapped before being broken down into overlapping fragments. These were sequenced individually and could be easily put back together, but the initial mapping was time-consuming. Venter instead used , in which the genome was shattered into random fragments, each of which was sequenced, after which he relied on a computer to make sense of the resulting mess. In 1995 he used this method to sequence , and with that proof of concept he targeted the much larger human genome.
The result was a tie. The publicly-funded and commercial genome teams both announced draft sequences in 2000, and published their results the following year: , . However, while the HGP made all its data publicly available, Venter initially held some of his back so that Celera could monetise it.
In the aftermath, Venter found that many geneticists regarded him with contempt, but he was also flush with cash and no longer needed their approval.
Using his own yacht, Sorcerer II, Venter spent 2004-2006 circumnavigating the globe collecting samples of seawater. His team sequenced vast amounts of DNA from these samples, leading to the discovery of millions of proteins including .
Venter then set out to create synthetic life, arguing that the ability to engineer novel organisms could have enormous benefits for everything from medicine to agriculture. In 2010 his team built a sort of synthetic cell.
They began with an existing bacterium called Mycoplasma mycoides. The team created an entire artificial genome for it, stringing together strands of DNA they had synthesised in the lab. Then they removed the genome from a living M. mycoides cell and . This could easily have killed the cell, but instead the new genome “booted up” and the cell thrived.
Venter didn’t claim that he had created life from scratch, but rather that this was a new kind of life: its genome had been created by a computer, so in a sense it had no biological ancestors. In a rhetorical flourish, Venter’s team added their names into the genome: this served as a proof that the genome had been successfully transferred, but it also served the emotional purpose of signing their work.
Once again, Venter’s efforts were controversial. Other synthetic biologists were not sure what the point was, other than a proof of concept, and argued that less flashy experiments would probably yield more benefits.
Undaunted, Venter continued editing his creation, stripping away genes that were not essential for survival in a bid to create an organism with a “minimal genome”. The key discovery from this was that there were many essential genes whose function was unknown – a reminder of how far we still have to go before we really understand life.
It will take historians of science a long time to sift through every aspect of Venter’s life and work. What is already clear is that his impact was enormous.
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