Richard Gibbs, Founder, Genome Sequencing Center at Baylor College of Medicine
0:00 What have you been up to since the HGP?
3:00 Advances in solving Mendelian diseases
7:50 What is your solve rate?
15:30 How do you get the best quality genome?
22:36 The continuum of science and medicine
There’s a basic assumption in our field today that has been around for some time. We think of medicine as on a direct and even continuum with science. That discoveries in genomics, for example, will lead directly to breakthroughs in medicine. But the breakthroughs on the medical side have been much more rare to date than those coming from the study of biology and genomics.
Richard Gibbs is the Founder of the renowned Genome Sequencing Center at Baylor College of Medicine. He and his team were one of five worldwide sites contributing to the Human Genome Project (HGP). In today’s interview we find out what the sequencing pioneer has been up to since the days of the HGP and what his take is for how well genetic science is translating into clinical care.
In fact, Richard is willing to put a number on how far we’ve come.
“There’s a trajectory that began just about the time the Human Genome Project was being conceived through to this futuristic image of medical genomics where complete genomes are actually part of medical care,” he says. "That journey is not yet complete. We are somewhere between 50 and 90% there.”
Richard says that the HGP was actually a departure from what was typical in the field of human genetics. That it was a science project done more purely for the sake of science. Most of the history of human genetics research has been practical medical or clinical projects.
One of the areas where Richard’s team has made a big impact is in collaboration with the NHGRI's Center for Mendelian Diseases. The team is also participating heavily with the NIH’s Undiagnosed Disease Network. What is the difference between a Mendelian and a rare disease? What are the center’s solve rates for each of those areas?
We round out the discussion with a look at how Richard and his team get the 'best quality genomes' for their projects, an issue of utmost importance in the clinic.