Molecular Interactions and Forces that Make Proteins Stable: A Quantitative Inventory from Atomistic Molecular Dynamics Simulations

Abstract: Protein design requires a deep control of protein folding energetics, which can be determined experimentally on a case-by-case basis but is not understood in sufficient detail. Calorimetry, protein engineering and biophysical modeling have outlined the fundamentals of protein stability, but these approaches face difficulties in elucidating the specific contributions of the intervening molecules and elementary interactions to the folding energy balance. Recently, we showed that, using Molecular Dynamics (MD) si… Show more