Sonya Hanson

Via Zoom

Via Zoom


"Elucidating mechanisms of biological temperature sensing"

Despite the existence of engineered thermometers since the time of Galileo and electronic temperature sensors in even our phones, we still do not understand how our own internal biological temperature sensors work. Engineered thermometers take advantage of simple laws, but is the same
true for biological temperature sensors? In this talk I will first describe my past work looking for modular sensory domains in the temperature sensitive TRP channels. This work sets the stage for my future vision elucidating mechanisms of biological temperature sensing, for which next generation methods in advanced cryo-electron microscopy (cryo-EM) analysis and molecular dynamics (MD) simulations will be crucial.

In the second part of my talk, I will illustrate the unique potential of these methods to tackle the conformational heterogeneity of three known biological temperature sensors: bacterial voltage-gated sodium channels, a temperature sensing pathway in Arabidopsis, and TRP channels. The mechanisms revealed by this research will improve our ability to 1) develop pain therapeutics, for which both sodium and TRP channels are prime non-opioid receptor targets, and 2) understand the temperature
sensitivity of plants and marine bacteria, which play key roles in global ecosystems.

The agenda of this meeting is empty