Advances in Microsecond Time-Resolved Cryo-EM
Ulrich J. Lorenz

TL;DR
A new cryo-EM technique allows observing protein dynamics in microseconds, capturing transient states and improving structural understanding.
Contribution
A novel cryo-EM method with microsecond time resolution using laser melting and revitrification to capture protein dynamics.
Findings
Laser melting and revitrification enable trapping of protein transient states for imaging.
The method overcomes preferred particle orientation in cryo-EM.
Extended temporal observation allows tracking conformational ensembles over hundreds of microseconds.
Abstract
Protein structure determination and prediction have made stunning progress. In contrast, it is generally not possible to observe proteins as they perform their tasks, which leaves our understanding of these nanoscale machines fundamentally incomplete. My group has recently introduced a novel approach to time-resolved cryo-EM that improves its time resolution by about 3 orders of magnitude, making it fast enough to observe the microsecond dynamics of proteins that are frequently associated with function. Our method involves melting a cryo sample with a laser beam, which allows dynamics of the embedded particles to occur in liquid if a suitable stimulus is provided. When the heating laser is switched off, the sample rapidly revitrifies, trapping the particles in their transient configurations, in which we can subsequently image them. As I will illustrate, this makes it possible to watch…
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Taxonomy
TopicsAdvanced Electron Microscopy Techniques and Applications · Electron Spin Resonance Studies
