Participants will learn core principles that allow them to translate biological observations into models grounded in basic concepts of chemistry and physics. The concepts covered are largely those taught in introductory undergraduate classes, but are not typically applied to research into complex biological processes. Doing so allows researchers to develop models that make testable and falsifiable predictions. The concepts and approach will be introduced with molecular examples, including enzyme catalysis, allostery and molecular motors. Next, participants will work in groups to build analogous models related to more complex literature examples or their own research.
3 units · Medical Satisfactory/No Credit
Participants will learn core principles that allow them to translate biological observations into models grounded in basic concepts of chemistry and physics. The concepts covered are largely those taught in introductory undergraduate classes, but are not typically applied to research into complex biological processes. Doing so allows researchers to develop models that make testable and falsifiable predictions. The concepts and approach will be introduced with molecular examples, including enzyme catalysis, allostery and molecular motors. Next, participants will work in groups to build analogous models related to more complex literature examples or their own research.
Offered in Spring 2026 at Stanford University.