Christopher Russo
Imaging the atomic structure of biological molecules by electron cryomicroscopy
Many of the outstanding questions in biology and medicine are difficult to address because there is no way to directly look at the complex molecular machines responsible for life. We develop new instruments and methods for imaging biological molecules (DNA, RNA and proteins) at atomic resolution. The primary instrument that enables atomic-resolution imaging is the electron microscope. We aim to improve cryo specimen preparation and imaging methods to the point where we can use the electron microscope to image the atomic-resolution structure of any purified macromolecular complex, and to identify any biological macromolecule in situ.
We plan to accomplish this by studying the physical principles underlying the current resolution limits and then reengineering key components in the imaging system to improve resolving power. We draw on recent advances in electron optics, solid-state physics, surface chemistry, electrical engineering and materials science to achieve progress. Using this new technology, we study the detailed mechanisms of biomolecules to understand how they function.
