Molecular dynamics simulations in photosynthesis

Review
Proteins
Enhanced sampling
Cofactors
Lipid membranes
Multi-scale
Author

Nicoletta Liguori, Roberta Croce, Siewert J. Marrink and Sebastian Thallmair

Doi

Citation (APA 7)

Liguori, N., Croce, R., Marrink, S. J., & Thallmair, S. (2020). Molecular dynamics simulations in photosynthesis. Photosynthesis research, 144(2), 273-295.

Abstract

Photosynthesis is regulated by a dynamic interplay between proteins, enzymes, pigments, lipids, and cofactors that takes place on a large spatio-temporal scale. Molecular dynamics (MD) simulations provide a powerful toolkit to investigate dynamical processes in (bio)molecular ensembles from the (sub)picosecond to the (sub)millisecond regime and from the Å to hundreds of nm length scale. Therefore, MD is well suited to address a variety of questions arising in the field of photosynthesis research. In this review, we provide an introduction to the basic concepts of MD simulations, at atomistic and coarse-grained level of resolution. Furthermore, we discuss applications of MD simulations to model photosynthetic systems of different sizes and complexity and their connection to experimental observables. Finally, we provide a brief glance on which methods provide opportunities to capture phenomena beyond the applicability of classical MD.