Litcius/Paper detail

Devitrification reduces beam-induced movement in cryo-EM

Jan-Philip Wieferig, Deryck J. Mills, Werner Kühlbrandt

2021IUCrJ29 citationsDOIOpen Access PDF

Abstract

As cryo-EM approaches the physical resolution limits imposed by electron optics and radiation damage, it becomes increasingly urgent to address the issues that impede high-resolution structure determination of biological specimens. One of the persistent problems has been beam-induced movement, which occurs when the specimen is irradiated with high-energy electrons. Beam-induced movement results in image blurring and loss of high-resolution information. It is particularly severe for biological samples in unsupported thin films of vitreous water. By controlled devitrification of conventionally plunge-frozen samples, the suspended film of vitrified water was converted into cubic ice, a polycrystalline, mechanically stable solid. It is shown that compared with vitrified samples, devitrification reduces beam-induced movement in the first 5 e Å −2 of an exposure by a factor of ∼4, substantially enhancing the contribution of the initial, minimally damaged frames to a structure. A 3D apoferritin map reconstructed from the first frames of 20 000 particle images of devitrified samples resolved undamaged side chains. Devitrification of frozen-hydrated specimens helps to overcome beam-induced specimen motion in single-particle cryo-EM, as a further step towards realizing the full potential of cryo-EM for high-resolution structure determination.

Topics & Concepts

DevitrificationBeam (structure)Materials scienceCryo-electron microscopyResolution (logic)OpticsElectronCrystalliteCathode rayIrradiationBiological specimenParticle (ecology)NanotechnologyMineralogyCrystallizationChemistryComputer scienceNuclear magnetic resonancePhysicsNuclear physicsMetallurgyGeologyOrganic chemistryOceanographyArtificial intelligenceAdvanced Electron Microscopy Techniques and ApplicationsIon-surface interactions and analysisAdvanced X-ray Imaging Techniques