Alexis Rohou scite author profile

CTFFIND is a widely-used program for the estimation of objective lens defocus parameters from transmission electron micrographs. Defocus parameters are estimated by fitting a model of the microscope's contrast transfer function (CTF) to an image's amplitude spectrum. Here we describe modifications to the algorithm which make it significantly faster and more suitable for use with images collected using modern technologies such as dose fractionation and phase plates. We show that this new version preserves the accuracy of the original algorithm while allowing for higher throughput. We also describe a measure of the quality of the fit as a function of spatial frequency and suggest this can be used to define the highest resolution at which CTF oscillations were successfully modeled.

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CTFFIND4: Fast and accurate defocus estimation from electron micrographs

Rohou

2015

Preprint

833

935

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cisTEM, user-friendly software for single-particle image processing

2018

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We have developed new open-source software called cisTEM (computational imaging system for transmission electron microscopy) for the processing of data for high-resolution electron cryo-microscopy and single-particle averaging. cisTEM features a graphical user interface that is used to submit jobs, monitor their progress, and display results. It implements a full processing pipeline including movie processing, image defocus determination, automatic particle picking, 2D classification, ab-initio 3D map generation from random parameters, 3D classification, and high-resolution refinement and reconstruction. Some of these steps implement newly-developed algorithms; others were adapted from previously published algorithms. The software is optimized to enable processing of typical datasets (2000 micrographs, 200 k – 300 k particles) on a high-end, CPU-based workstation in half a day or less, comparable to GPU-accelerated processing. Jobs can also be scheduled on large computer clusters using flexible run profiles that can be adapted for most computing environments. cisTEM is available for download from cistem.org.

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cisTEM: User-friendly software for single-particle image processing

Grant

Rohou

Grigorieff

2018

Preprint

233

360

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7We have developed new open-source software called cisTEM (computational imaging system 8 for transmission electron microscopy) for the processing of data for high-resolution electron 9 cryo-microscopy and single-particle averaging. cisTEM features a graphical user interface that is 10 used to submit jobs, monitor their progress, and display results. It implements a full processing 11 pipeline including movie processing, image defocus determination, automatic particle picking, 12 2D classification, ab-initio 3D map generation from random parameters, 3D classification, and 13high-resolution refinement and reconstruction. Some of these steps implement newly-developed 14 algorithms; others were adapted from previously published algorithms. The software is 15 optimized to enable processing of typical datasets (2000 micrographs, 200k -300k particles) on 16 a high-end, CPU-based workstation in half a day or less, comparable to GPU-accelerated 17 processing. Jobs can also be scheduled on large computer clusters using flexible run profiles that 18 can be adapted for most computing environments.

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Structural Basis of Nav1.7 Inhibition by a Gating-Modifier Spider Toxin

Xu¹,

Li²,

Rohou³

et al. 2019

Cell

145

264

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Structure and conformational states of the bovine mitochondrial ATP synthase by cryo-EM

et al. 2015

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Adenosine triphosphate (ATP), the chemical energy currency of biology, is synthesized in eukaryotic cells primarily by the mitochondrial ATP synthase. ATP synthases operate by a rotary catalytic mechanism where proton translocation through the membrane-inserted FO region is coupled to ATP synthesis in the catalytic F1 region via rotation of a central rotor subcomplex. We report here single particle electron cryomicroscopy (cryo-EM) analysis of the bovine mitochondrial ATP synthase. Combining cryo-EM data with bioinformatic analysis allowed us to determine the fold of the a subunit, suggesting a proton translocation path through the FO region that involves both the a and b subunits. 3D classification of images revealed seven distinct states of the enzyme that show different modes of bending and twisting in the intact ATP synthase. Rotational fluctuations of the c8-ring within the FO region support a Brownian ratchet mechanism for proton-translocation-driven rotation in ATP synthases.DOI: http://dx.doi.org/10.7554/eLife.10180.001

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Molecular Architecture of the "Stressosome," a Signal Integration and Transduction Hub

Marles‐Wright

Grant

Delumeau

et al. 2008

Science

146

224

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A commonly used strategy by microorganisms to survive multiple stresses involves a signal transduction cascade that increases the expression of stress-responsive genes. Stress signals can be integrated by a multiprotein signaling hub that responds to various signals to effect a single outcome. We obtained a medium-resolution cryo-electron microscopy reconstruction of the 1.8-megadalton "stressosome" from Bacillus subtilis. Fitting known crystal structures of components into this reconstruction gave a pseudoatomic structure, which had a virus capsid-like core with sensory extensions. We suggest that the different sensory extensions respond to different signals, whereas the conserved domains in the core integrate the varied signals. The architecture of the stressosome provides the potential for cooperativity, suggesting that the response could be tuned dependent on the magnitude of chemophysical insult.

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Structural basis of α-scorpion toxin action on Na _v channels

Clairfeuille¹,

Cloake

Infield

et al. 2019

Science

144

205

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Fast inactivation of voltage-gated sodium (Nav) channels is essential for electrical signaling, but its mechanism remains poorly understood. Here we determined the structures of a eukaryotic Nav channel alone and in complex with a lethal α-scorpion toxin, AaH2, by electron microscopy, both at 3.5-angstrom resolution. AaH2 wedges into voltage-sensing domain IV (VSD4) to impede fast activation by trapping a deactivated state in which gating charge interactions bridge to the acidic intracellular carboxyl-terminal domain. In the absence of AaH2, the S4 helix of VSD4 undergoes a ~13-angstrom translation to unlatch the intracellular fast-inactivation gating machinery. Highlighting the polypharmacology of α-scorpion toxins, AaH2 also targets an unanticipated receptor site on VSD1 and a pore glycan adjacent to VSD4. Overall, this work provides key insights into fast inactivation, electromechanical coupling, and pathogenic mutations in Nav channels.

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Alexis Rohou

CTFFIND4: Fast and accurate defocus estimation from electron micrographs

CTFFIND4: Fast and accurate defocus estimation from electron micrographs

cisTEM, user-friendly software for single-particle image processing

cisTEM: User-friendly software for single-particle image processing

Structural Basis of Nav1.7 Inhibition by a Gating-Modifier Spider Toxin

Structure and conformational states of the bovine mitochondrial ATP synthase by cryo-EM

Molecular Architecture of the "Stressosome," a Signal Integration and Transduction Hub

Structural basis of α-scorpion toxin action on Na _v channels

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Product

Resources

About

Alexis Rohou

CTFFIND4: Fast and accurate defocus estimation from electron micrographs

CTFFIND4: Fast and accurate defocus estimation from electron micrographs

cisTEM, user-friendly software for single-particle image processing

cisTEM: User-friendly software for single-particle image processing

Structural Basis of Nav1.7 Inhibition by a Gating-Modifier Spider Toxin

Structure and conformational states of the bovine mitochondrial ATP synthase by cryo-EM

Molecular Architecture of the "Stressosome," a Signal Integration and Transduction Hub

Structural basis of α-scorpion toxin action on Na v channels

Contact Info

Product

Resources

About

Structural basis of α-scorpion toxin action on Na _v channels