Volume 240, 2022

Application of super-resolution and correlative double sampling in cryo-electron microscopy

Abstract

Developments in cryo-EM have allowed atomic or near-atomic resolution structure determination to become routine in single particle analysis (SPA). However, near-atomic resolution structures determined using cryo-electron tomography and sub-tomogram averaging (cryo-ET STA) are much less routine. In this paper, we show that collecting cryo-ET STA data using the same conditions as SPA, with both correlated double sampling (CDS) and the super-resolution mode, allowed apoferritin to be reconstructed out to the physical Nyquist frequency of the images. Even with just two tilt series, STA yields an apoferritin map at 2.9 Å resolution. These results highlight the exciting potential of cryo-ET STA in the future of protein structure determination. While processing SPA data recorded in super-resolution mode may yield structures surpassing the physical Nyquist limit, processing cryo-ET STA data in the super-resolution mode gave no additional resolution benefit. We further show that collecting SPA data in the super-resolution mode, with CDS activated, reduces the estimated B-factor, leading to a reduction in the number of particles required to reach a target resolution without compromising the data size on disk and the area imaged in SerialEM. However, collecting SPA data in CDS does reduce throughput, given that a similar resolution structure, with a slightly larger B-factor, is achievable with optimised parameters for speed in EPU (without CDS).

Graphical abstract: Application of super-resolution and correlative double sampling in cryo-electron microscopy

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
18 Feb 2022
Accepted
24 Mar 2022
First published
22 Apr 2022
This article is Open Access
Creative Commons BY license

Faraday Discuss., 2022,240, 261-276

Application of super-resolution and correlative double sampling in cryo-electron microscopy

Y. Sheng, P. J. Harrison, V. Vogirala, Z. Yang, C. Strain-Damerell, T. Frosio, B. A. Himes, C. A. Siebert, P. Zhang and D. K. Clare, Faraday Discuss., 2022, 240, 261 DOI: 10.1039/D2FD00049K

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