Role of Hydration Layer in Dynamical Transition in Proteins: Insights from Translational Self-Diffusivity

Elucidation of the role of hydration water underpinning dynamical crossover in proteins has proven challenging. Indeed, many contradictory findings in the literature seek to establish either causal or correlative links between water and protein behavior. Here, via molecular dynamics, we compute the temperature dependence of mean-square displacement and translational self-diffusivities for both hen egg white lysozyme and its hydration layer from 190 to 300 K. We find that the protein’s mobility increases sharply at ∼230 K, indicating dynamical onset; concerted motion with hydration-water molecules is evident up to ∼285 K, confirming dynamical correlation between them. Exploring underlying mechanisms of such concerted motion, we scrutinize the water–protein hydrogen-bonding network as a function of temperature, noting sharp deviation from linearity of the hydrogen bond number’s profile with temperature originating near the protein dynamical transition. Our studies reveal a common temperature profile/depende...