In research, I wanted to establish the medicinal chemistry/bioassay conjugation as an academic pursuit, as exciting to the imagination as astrophysics or molecular biology.
During the summer months of my high-school years, I befriended Dr. Robert Kough, a physician who cared for members of my family. Although he was practicing general medicine in a rural community when I met him, he was well equipped to arouse in me an interest not only in the life of a physician but in the fundaments of human biology.
When something like personal genomics or synthetic biology suddenly appears - it seems to suddenly appear - we might have been working on it for 30 years, but it seems to come out of nowhere. Then you need strategies for engaging a lot of people and thinking about where it will be going in the next few months or few years.
Because gender can be uncomfortable, there are easy ways to close this conversation. Some people will bring up evolutionary biology and apes, how female apes bow to male apes - that sort of thing. But the point is this: we are not apes. Apes also live in trees and eat earthworms. We do not.
To be honest, what I struggled with in my degree is what's so helpful when it comes to social media in that I lack focus. I'll start reading about evolutionary biology and end up on quantum physics. While that makes writing your dissertation very difficult, for a page like IFLS, that's amazing because I get a wide range of everything.
If you look at the ecological circuitry of this planet, the ways in which materials like carbon or sulfur or phosphorous or nitrogen get cycled in ways that makes them available for our biology, the organisms that do the heavy lifting are bacteria.
I decided to pursue graduate study in molecular biology and was accepted by Professor Itaru Watanabe's laboratory at the Institute for Virus Research at the University of Kyoto, one of a few laboratories in Japan where U.S.-trained molecular biologists were actively engaged in research.