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Differentiable molecular simulation can learn all the parameters in a coarse-grained force field for proteins

Joe G. Greener, David T. Jones

2021PLoS ONE30 citationsDOIOpen Access PDF

Abstract

Finding optimal parameters for force fields used in molecular simulation is a challenging and time-consuming task, partly due to the difficulty of tuning multiple parameters at once. Automatic differentiation presents a general solution: run a simulation, obtain gradients of a loss function with respect to all the parameters, and use these to improve the force field. This approach takes advantage of the deep learning revolution whilst retaining the interpretability and efficiency of existing force fields. We demonstrate that this is possible by parameterising a simple coarse-grained force field for proteins, based on training simulations of up to 2,000 steps learning to keep the native structure stable. The learned potential matches chemical knowledge and PDB data, can fold and reproduce the dynamics of small proteins, and shows ability in protein design and model scoring applications. Problems in applying differentiable molecular simulation to all-atom models of proteins are discussed along with possible solutions and the variety of available loss functions. The learned potential, simulation scripts and training code are made available at https://github.com/psipred/cgdms.

Topics & Concepts

InterpretabilityForce field (fiction)Computer scienceDifferentiable functionMolecular dynamicsField (mathematics)Function (biology)Scripting languageDeep learningSource codeStructural bioinformaticsSimple (philosophy)Artificial intelligenceComputational scienceProtein structurePhysicsChemistryBiologyMathematicsComputational chemistryProgramming languagePure mathematicsPhilosophyNuclear magnetic resonanceMathematical analysisEpistemologyEvolutionary biologyProtein Structure and DynamicsMachine Learning in Materials ScienceEnzyme Structure and Function
Differentiable molecular simulation can learn all the parameters in a coarse-grained force field for proteins | Litcius