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

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

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 t...

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Veröffentlicht in:Faraday discussions 2022-11, Vol.24, p.261-276
Hauptverfasser: Sheng, Yuewen, Harrison, Peter J, Vogirala, Vinod, Yang, Zhengyi, Strain-Damerell, Claire, Frosio, Thomas, Himes, Benjamin A, Siebert, C. Alistair, Zhang, Peijun, Clare, Daniel K
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Apoferritins
Atomic structure
Chemistry
Cryoelectron Microscopy - methods
Electron Microscope Tomography - methods
Image reconstruction
Nyquist frequencies
Proteins - chemistry
Sampling
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container_issue
container_start_page 261
container_title Faraday discussions
container_volume 24
creator Sheng, Yuewen
Harrison, Peter J
Vogirala, Vinod
Yang, Zhengyi
Strain-Damerell, Claire
Frosio, Thomas
Himes, Benjamin A
Siebert, C. Alistair
Zhang, Peijun
Clare, Daniel K
description 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). A comparison of STA and SPA processed data acquired with/without super-resolution imaging mode enabled.
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source MEDLINE; Royal Society Of Chemistry Journals; Alma/SFX Local Collection
subjects Apoferritins
Atomic structure
Chemistry
Cryoelectron Microscopy - methods
Electron Microscope Tomography - methods
Image reconstruction
Nyquist frequencies
Proteins - chemistry
Sampling
title Application of super-resolution and correlative double sampling in cryo-electron microscopy
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