The Spark Is Alive
Elizabeth Blackburn is a molecular biologist and biochemist. She is a former president of the Salk Institute for Biological Studies and an emerita faculty member at the University of California, San Francisco. In 2009 she shared the Nobel Prize in Physiology or Medicine for uncovering the structure of telomeres, the protective tips at the ends of our chromosomes that help to safeguard DNA, and for helping to discover telomerase, the enzyme that keeps those tips intact. We sat down with Blackburn to discuss the state of American science. Below is an excerpt of that conversation.
Scientific American: How would you describe the current state of American science?
Elizabeth Blackburn: I’d say it’s under siege and under assault. The assault is coming from various factors, and one of them has been the systematic attacks on science and its funding and support from the current administration.
There’s also an attack on the access of people who historically have been underrepresented, and that is really hurting efforts to get the most talent into careers in science. It’s just throwing away something that has historically had substantial effects. It just so saddens me and shocks me that we’re throwing away so many opportunities.
The other really sad thing is the assault on truth that we see in public discourse. This is really an assault on science because what is science about? It’s about getting at verifiable truth.
SA: What gives you optimism right now?
EB: I see young people, especially children, who come to places like the California Academy of Sciences museum in San Francisco, and you just see how their curiosity is so great, and they’re sparked. So I have hope. It’s rather distant because these are young people, but I do have hope that this spark of interest and curiosity, which is what drives fundamental science, is alive and well. The spark has not died in children.
SA: How has your field changed in the past few years?
EB: In my case, molecular biologist Carol Greider of the University of California, Santa Cruz, and I discovered telomerase decades ago, and we discovered it through its enzyme activity. Now, after a lot of biochemical work and big advances in imaging and cryoelectron microscopy, you can actually see what telomerase looks like.
On the other end of the spectrum, you can now look at humans using big, computational approaches, big data. It’s enormously beneficial.
Read the full interview here.