Computational ‘microscopy’ of cellular membranes

Review
Proteins
Lipid membranes
Multi-scale
Author

Helgi I. Ingólfsson, Clément Arnarez, Xavier Periole, and Siewert J. Marrink

Doi

Citation (APA 7)

Ingólfsson, H. I., Arnarez, C., Periole, X., & Marrink, S. J. (2016). Computational ’microscopy’of cellular membranes. Journal of cell science, 129(2), 257-268.

Abstract

Computational ‘microscopy’ refers to the use of computational resources to simulate the dynamics of a molecular system. Tuned to cell membranes, this computational ‘microscopy’ technique is able to capture the interplay between lipids and proteins at a spatio-temporal resolution that is unmatched by other methods. Recent advances allow us to zoom out from individual atoms and molecules to supramolecular complexes and subcellular compartments that contain tens of millions of particles, and to capture the complexity of the crowded environment of real cell membranes. This Commentary gives an overview of the main concepts of computational ‘microscopy’ and describes the state-of-the-art methods used to model cell membrane processes. We illustrate the power of computational modelling approaches by providing a few in-depth examples of large-scale simulations that move up from molecular descriptions into the subcellular arena. We end with an outlook towards modelling a complete cell in silico.