Litcius/Paper detail

Improvements on marker-free images alignment for electron tomography

Carlos Óscar S. Sorzano, F.P. de Isidro-Gómez, E. Fernández-Giménez, David Herreros, Sergio Marco, J.M. Carazo, Cédric Messaoudi

2020Journal of Structural Biology X15 citationsDOIOpen Access PDF

Abstract

Electron tomography is a technique to obtain three-dimensional structural information of samples. However, the technique is limited by shifts occurring during acquisition that need to be corrected before the reconstruction process. In 2009, we proposed an approach for post-acquisition alignment of tilt series images. This approach was marker-free, based on patch tracking and integrated in free software. Here, we present improvements to the method to make it more reliable, stable and accurate. In addition, we modified the image formation model underlying the alignment procedure to include different deformations occurring during acquisition. We propose a new way to correct these computed deformations to obtain reconstructions with reduced artifacts. The new approach has demonstrated to improve the quality of the final 3D reconstruction, giving access to better defined structures for different transmission electron tomography methods: resin embedded STEM-tomography and cryo-TEM tomography. The method is freely available in TomoJ software.

Topics & Concepts

TomographyElectron tomographySoftwareTracking (education)Computer scienceComputer visionTilt (camera)Cryo-electron tomographyProcess (computing)Artificial intelligenceData acquisitionOpticsPhysicsScanning transmission electron microscopyMathematicsTransmission electron microscopyGeometryProgramming languageOperating systemPedagogyPsychologyAdvanced Electron Microscopy Techniques and ApplicationsElectron and X-Ray Spectroscopy TechniquesAdvanced X-ray Imaging Techniques