Structure-Based Experimental Datasets for Benchmarking Protein Simulation Force Fields
Abstract
This review article provides an overview of structurally oriented experimental datasets that can be used to benchmark protein force fields, focusing on data generated by nuclear magnetic resonance (NMR) spectroscopy and room temperature (RT) protein crystallography. We discuss what the observables are, what they tell us about structure and dynamics, what makes them useful for assessing force field accuracy, and how they can be connected to molecular dynamics simulations carried out using the force field one wishes to benchmark. We also touch on statistical issues that arise when comparing simulations with experiment. We hope this article will be particularly useful to computational researchers and trainees who develop, benchmark, or use protein force fields for molecular simulations.
Cite
@article{arxiv.2303.11056,
title = {Structure-Based Experimental Datasets for Benchmarking Protein Simulation Force Fields},
author = {Chapin E. Cavender and David A. Case and Julian C. -H. Chen and Lillian T. Chong and Daniel A. Keedy and Kresten Lindorff-Larsen and David L. Mobley and O. H. Samuli Ollila and Chris Oostenbrink and Paul Robustelli and Vincent A. Voelz and Michael E. Wall and David C. Wych and Michael K. Gilson},
journal= {arXiv preprint arXiv:2303.11056},
year = {2025}
}
Comments
46 pages, 4 figures. Substantial revision and expansion of content from previous version