Image processing in cryogenic electron tomography (cryoET) is currently at a similar state as Single Particle Analysis (SPA) in cryogenic electron microscopy (cryoEM) was a few years ago. Its data processing workflows are far from being well defined and the user experience is still not smooth. Moreover, file formats of different software packages and their associated metadata are not standardized, mainly since different packages are developed by different groups, focusing on different steps of the data processing pipeline. The Scipion framework, originally developed for SPA (de la Rosa-Trevín et al., 2016), has a generic python workflow engine that gives it the versatility to be extended to other fields, as demonstrated for model building (Martínez et al., 2020). In this article, we provide an extension of Scipion based on a set of tomography plugins (referred to as ScipionTomo hereafter), with a similar purpose: to allow users to be focused on the data processing and analysis instead of having to deal with multiple software installation issues and the inconvenience of switching from one to another, converting metadata files, managing possible incompatibilities, scripting (writing a simple program in a language that the computer must convert to machine language each time the program is run), etcetera. Additionally, having all the software available in an integrated platform allows comparing the results of different algorithms trying to solve the same problem. In this way, the commonalities and differences between estimated parameters shed light on which results can be more trusted than others. ScipionTomo is developed by a collaborative multidisciplinary team composed of Scipion team engineers, structural biologists, and in some cases, the developers whose software packages have been integrated. It is open to anyone in the field willing to contribute to this project. The result is a framework extension that combines the acquired knowledge of Scipion developers in close collaboration with third-party developers, and the on-demand design of functionalities requested by beta testers applying this solution to actual biological problems.

Alba Synchrotron CELLS Barcelona Spain

BioEM Lab Biozentrum University of Basel Basel Switzerland

Center for Systems Biology Dresden Germany

Fondazione Human Technopole Milan Italy

Health Research Institute of Asturias Oviedo Spain

IMPMC UMR 7590 CNRS Sorbonne Université MNHN Paris France

Inria Rennes Bretagne Atlantique Rennes France

Masaryk University Brno Czech Republic

Max Planck Institute of Molecular Cell Biology and Genetics Germany

National Center of Biotechnology Madrid Spain

Structural Studies Division MRC Laboratory of Molecular Biology Cambridge United Kingdom

Superior Polytechnic School Univ Autónoma of Madrid Madrid Spain

University of Leiden Ultrastructural and Molecular Imaging Leiden the Netherlands

University of Oviedo Department of Computer Sciences Oviedo Spain

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