bims-lances Biomed News
on Landscapes from Cryo-EM and Simulations
Issue of 2024–04–14
one paper selected by
James M. Krieger, National Centre for Biotechnology



  1. J Appl Crystallogr. 2024 Apr 01. 57(Pt 2): 580-586
      Proteins are well known 'shapeshifters' which change conformation to function. In crystallography, multiple conformational states are often present within the crystal and the resulting electron-density map. Yet, explicitly incorporating alternative states into models to disentangle multi-conformer ensembles is challenging. We previously reported the tool FLEXR, which, within a few minutes, automatically separates conformational signal from noise and builds the corresponding, often missing, structural features into a multi-conformer model. To make the method widely accessible for routine multi-conformer building as part of the computational toolkit for macromolecular crystallography, we present a graphical user interface (GUI) for FLEXR, designed as a plugin for Coot 1. The GUI implementation seamlessly connects FLEXR models with the existing suite of validation and modeling tools available in Coot. We envision that FLEXR will aid crystallographers by increasing access to a multi-conformer modeling method that will ultimately lead to a better representation of protein conformational heterogeneity in the Protein Data Bank. In turn, deeper insights into the protein conformational landscape may inform biology or provide new opportunities for ligand design. The code is open source and freely available on GitHub at https://github.com/TheFischerLab/FLEXR-GUI.
    Keywords:  Coot; FLEXR; conformational heterogeneity; electron-density maps; flexibility; graphical user interfaces; model building; multi-conformer models; proteins
    DOI:  https://doi.org/10.1107/S1600576724001523