Room temperature molecular dynamics (MD) simulations of the globular protein α-lactalbumin in aqueous solutions containing BMIM (1-butyl-3-methylimidazolium) based ionic liquids (ILs) with a series of Hofmeister anions have been carried out. In particular, effects of anions of different shapes/sizes and hydrophobic/hydrophilic characters, namely, thiocyanate (SCN-), dicyanamide (DCA-), methyl sulfate (MS-), triflate (TFO-), and bis(trifluoromethane) sulfonimide (TF2N-) on the heterogeneous dynamic environment at the interface around the protein have been explored. The calculations revealed exchange of population between water and IL cation-anion components beyond the first layer of bound water molecules at the protein surface. Further, increasingly restricted diffusivity of the IL components and water around the protein has been found to be associated with a longer time scale for the onset of dynamic heterogeneity at the interface. Restricted diffusivity of water molecules at the interface in the presence of the ILs has been found to be correlated with the longer time scale of structural relaxations of protein-water hydrogen bonds at the interface. More importantly, the time scale associated with the reorientations of the anions has been found to be anticorrelated with their translational diffusivity, with the effect being more at the interface as compared to the bulk IL solutions. It is demonstrated that the nonuniform ability of the anions to form hydrogen bonds with water due to their differential shapes and hydrophilic characters is the origin of such anticorrelation.
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