C.O.S. Sorzano scite author profile

We describe a collection of standardized image processing protocols for electron microscopy singleparticle analysis using the XMIPP software package. These protocols allow performing the entire processing workflow starting from digitized micrographs up to the final refinement and evaluation of 3D models. A particular emphasis has been placed on the treatment of structurally heterogeneous data through maximum-likelihood refinements and self-organizing maps as well as the generation of initial 3D models for such data sets through random conical tilt reconstruction methods. All protocols presented have been implemented as stand-alone, executable python scripts, for which a dedicated graphical user interface has been developed. Thereby, they may provide novice users with a convenient tool to quickly obtain useful results with minimum efforts in learning about the details of this comprehensive package. Examples of applications are presented for a negative stain random conical tilt data set on the hexameric helicase G40P and for a structurally heterogeneous data set on 70S Escherichia coli ribosomes embedded in vitrified ice.

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Consistent and Elastic Registration of Histological Sections Using Vector-Spline Regularization

Arganda‐Carreras

et al. 2006

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El acceso a la versión del editor puede requerir la suscripción del recurso Access to the published version may require subscription Abstract. Here we present a new image registration algorithm for the alignment of histological sections that combines the ideas of B-spline based elastic registration and consistent image registration, to allow simultaneous registration of images in two directions (direct and inverse). In principle, deformations based on B-splines are not invertible. The consistency term overcomes this limitation and allows registration of two images in a completely symmetric way. This extension of the elastic registration method simplifies the search for the optimum deformation and allows registering with no information about landmarks or deformation regularization. This approach can also be used as the first step to solve the problem of group-wise registration. . . .

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TomoJ: tomography software for three-dimensional reconstruction in transmission electron microscopy

et al. 2007

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Background: Transmission electron tomography is an increasingly common three-dimensional electron microscopy approach that can provide new insights into the structure of subcellular components. Transmission electron tomography fills the gap between high resolution structural methods (X-ray diffraction or nuclear magnetic resonance) and optical microscopy. We developed new software for transmission electron tomography, TomoJ. TomoJ is a plug-in for the now standard image analysis and processing software for optical microscopy, ImageJ.

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C.O.S. Sorzano

XMIPP: a new generation of an open-source image processing package for electron microscopy

Image processing for electron microscopy single-particle analysis using XMIPP

Consistent and Elastic Registration of Histological Sections Using Vector-Spline Regularization

TomoJ: tomography software for three-dimensional reconstruction in transmission electron microscopy

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