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Dose-efficient cryo-electron microscopy for thick samples using tilt- corrected scanning transmission electron microscopy

Yue Yu, Katherine A. Spoth, Michael Colletta, Kayla X. Nguyen, Steven E. Zeltmann, Xiyue S. Zhang, Mohammadreza Paraan, Mykhailo Kopylov, Charlie Dubbeldam, Daniel Serwas, Hannah Siems, David A. Muller, Lena F. Kourkoutis

2025Nature Methods12 citationsDOIOpen Access PDF

Abstract

Cryogenic electron microscopy is a powerful tool in structural biology. In thick specimens, challenges arise as an exponentially larger fraction of the transmitted electrons lose energy from inelastic scattering and can no longer be properly focused as a result of chromatic aberrations in the post-specimen optics. Rather than filtering out the inelastic scattering at the price of reducing potential signal, as is done in energy-filtered transmission electron microscopy, we show how a dose-efficient and unfiltered image can be rapidly obtained using tilt-corrected bright-field scanning transmission electron microscopy data collected on a pixelated detector. Enhanced contrast and a 3-5× improvement in dose efficiency are observed for two-dimensional images of intact bacterial cells and large organelles using tilt-corrected bright-field scanning transmission electron microscopy compared to energy-filtered transmission electron microscopy for thicknesses beyond 500 nm. As a proof of concept for the technique's performance in structural determination, we present a single-particle analysis map at sub-nanometer resolution for a highly symmetric virus-like particle determined from 789 particles.

Topics & Concepts

Scanning confocal electron microscopyEnergy filtered transmission electron microscopyScanning transmission electron microscopyTransmission electron microscopyMaterials scienceMicroscopyConventional transmission electron microscopeOpticsScanning electron microscopeElectron microscopeResolution (logic)Chromatic aberrationElectron tomographyScatteringInelastic scatteringDark field microscopyCryo-electron microscopyBiological specimenMolecular physicsElectronScanning ion-conductance microscopyHigh-resolution transmission electron microscopyTransmission (telecommunications)Electron scatteringPolymer characterizationSingle particle analysisOptoelectronicsElectron beam-induced depositionReflection high-energy electron diffractionImage resolutionElectron energy loss spectroscopyContrast transfer functionParticle (ecology)Optical microscopeAdvanced Electron Microscopy Techniques and ApplicationsElectron and X-Ray Spectroscopy TechniquesRNA and protein synthesis mechanisms
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