Javier Mota scite author profile

Motivation Recent technological advances and computational developments have allowed the reconstruction of Cryo-Electron Microscopy (cryo-EM) maps at near-atomic resolution. On a typical workflow and once the cryo-EM map has been calculated, a sharpening process is usually performed to enhance map visualization, a step that has proven very important in the key task of structural modeling. However, sharpening approaches, in general, neglects the local quality of the map, which is clearly suboptimal. Results Here, a new method for local sharpening of cryo-EM density maps is proposed. The algorithm, named LocalDeblur, is based on a local resolution-guided Wiener restoration approach of the original map. The method is fully automatic and, from the user point of view, virtually parameter-free, without requiring either a starting model or introducing any additional structure factor correction or boosting. Results clearly show a significant impact on map interpretability, greatly helping modeling. In particular, this local sharpening approach is especially suitable for maps that present a broad resolution range, as is often the case for membrane proteins or macromolecules with high flexibility, all of them otherwise very suitable and interesting specimens for cryo-EM. To our knowledge, and leaving out the use of local filters, it represents the first application of local resolution in cryo-EM sharpening. Availability and implementation The source code (LocalDeblur) can be found at https://github.com/I2PC/xmipp and can be run using Scipion (http://scipion.cnb.csic.es) (release numbers greater than or equal 1.2.1). Supplementary information Supplementary data are available at Bioinformatics online.

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Survey of the analysis of continuous conformational variability of biological macromolecules by electron microscopy

Sorzano

Jiménez

Mota

et al. 2019

Acta Cryst Sect F

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Single-particle analysis by electron microscopy is a well established technique for analyzing the three-dimensional structures of biological macromolecules. Besides its ability to produce high-resolution structures, it also provides insights into the dynamic behavior of the structures by elucidating their conformational variability. Here, the different image-processing methods currently available to study continuous conformational changes are reviewed.

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DeepRes: a new deep-learning- and aspect-based local resolution method for electron-microscopy maps

Ramírez-Aportela¹,

Mota²,

Conesa³

et al. 2019

Int Union Crystallogr J

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Using Scipion for stream image processing at Cryo-EM facilities

Gómez-Blanco

Rosa-Trevín

Marabini

et al. 2018

Journal of Structural Biology

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Three dimensional electron microscopy is becoming a very data-intensive field in which vast amounts of experimental images are acquired at high speed. To manage such large-scale projects, we had previously developed a modular workflow system called Scipion (de la Rosa-Trevín et al., 2016). We present here a major extension of Scipion that allows processing of EM images while the data is being acquired. This approach helps to detect problems at early stages, saves computing time and provides users with a detailed evaluation of the data quality before the acquisition is finished. At present, Scipion has been deployed and is in production mode in seven Cryo-EM facilities throughout the world.

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Advances in image processing for single-particle analysis by electron cryomicroscopy and challenges ahead

Vilas

Tabassum

Mota

et al. 2018

Current Opinion in Structural Biology

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Automatic local resolution-based sharpening of cryo-EM maps

Ramírez-Aportela

Vilas

Melero

et al. 2018

Preprint

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Recent technological advances and computational developments, have allowed the reconstruction of cryo-EM maps at near-atomic resolution structures. Cryo-EM maps benefit significantly of a "postprocessing" step, normally referred to as "sharpening", that tends to increase signal at medium/high resolution. Here, we propose a new method for local sharpening of volumes generated by cryo-EM. The algorithm (LocalDeblur) is based on a local resolution-guided Wiener restoration approach, does not need any prior atomic model and it avoids artificial structure

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Flexible workflows for on-the-fly electron-microscopy single-particle image processing using Scipion

Maluenda¹,

Majtner²,

Horváth³

et al. 2019

Acta Cryst Sect D Struct Biol

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Electron microscopy of macromolecular structures is an approach that is in increasing demand in the field of structural biology. The automation of image acquisition has greatly increased the potential throughput of electron microscopy. Here, the focus is on the possibilities in Scipion to implement flexible and robust image-processing workflows that allow the electron-microscope operator and the user to monitor the quality of image acquisition, assessing very simple acquisition measures or obtaining a first estimate of the initial volume, or the data resolution and heterogeneity, without any need for programming skills. These workflows can implement intelligent automatic decisions and they can warn the user of possible acquisition failures. These concepts are illustrated by analysis of the well known 2.2 Å resolution β-galactosidase data set.

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Measurement of local resolution in electron tomography

Vilas

Otón

Messaoudi

et al. 2020

Journal of Structural Biology: X

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Javier Mota

Automatic local resolution-based sharpening of cryo-EM maps

Survey of the analysis of continuous conformational variability of biological macromolecules by electron microscopy

DeepRes: a new deep-learning- and aspect-based local resolution method for electron-microscopy maps

Using Scipion for stream image processing at Cryo-EM facilities

Advances in image processing for single-particle analysis by electron cryomicroscopy and challenges ahead

Automatic local resolution-based sharpening of cryo-EM maps

Flexible workflows for on-the-fly electron-microscopy single-particle image processing using Scipion

Measurement of local resolution in electron tomography

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