Identification of simple reaction coordinates from complex dynamics
Abstract
Reaction coordinates are widely used throughout chemical physics to model and understand complex chemical transformations. We introduce a definition of the natural reaction coordinate, suitable for condensed phase and biomolecular systems, as a maximally predictive one-dimensional projection. We then show this criterion is uniquely satisfied by a dominant eigenfunction of an integral operator associated with the ensemble dynamics. We present a new sparse estimator for these eigenfunctions which can search through a large candidate pool of structural order parameters and build simple, interpretable approximations that employ only a small number of these order parameters. Example applications with a small molecule's rotational dynamics and simulations of protein conformational change and folding show that this approach can filter through statistical noise to identify simple reaction coordinates from complex dynamics.
Cite
@article{arxiv.1602.08776,
title = {Identification of simple reaction coordinates from complex dynamics},
author = {Robert T. McGibbon and Brooke E. Husic and Vijay S. Pande},
journal= {arXiv preprint arXiv:1602.08776},
year = {2017}
}
Comments
18 pages, 10 figures