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A dose-rate effect in single-particle electron microscopy (Corrigendum to vol 161, pg 92, 2008)

TitleA dose-rate effect in single-particle electron microscopy (Corrigendum to vol 161, pg 92, 2008)
Publication TypeJournal Article
Year of Publication2008
AuthorsChen, JZ, Sachse C, Xu C, Mielke T, Spahn CMT, Grigorieff N
Refereed DesignationRefereed
JournalJ Struct Biol
Volume164
Pagination240-240
Date PublishedNov
ISBN Number1047-8477
Accession NumberISI:000260588500009
Abstract

This research article describes the analysis of electron microscope images of ice-embedded samples, recorded using different imaging protocols. The image analysis was carried out to detect differences in the samples after imaging using different imaging protocols, as well as in the resulting image contrast. The report contains the following incorrect data analysis: Fig. 5a shows an analysis of power spectra calculated from images of tobacco mosaic virus, recorded using a newly developed imaging protocol (LINDA) and a more conventional protocol (HiFlux). The spectra shown in Fig. 5a suggest that peaks due to layer lines originating from the virus extend to higher resolution for LINDA imaging, compared to HiFlux imaging. The peaks in question are indicated by two arrows. The interpretation of these two peaks is incorrect because their positions do not coincide with the expected positions of layer lines originating from the virus (the positions of peaks in both spectra at lower resolution do coincide with the expected layer line positions). The spurious peaks most likely are the result of a limited range of defocus values present in the data. This led to false peaks in the spectrum produced by the contrast transfer function correction (Eq. (1)). The power spectrum analysis was improved and repeated for both the LINDA and HiFlux data sets. The spectra obtained with the new analysis no longer indicate a significant improvement of image contrast when the LINDA protocol is used. Other results presented in the article remain unaffected by this correction.

URLhttp://dx.doi.org/10.1016/j.jsb.2008.08.001
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