The process of freezing proteins is widely used in applications ranging from processing and storage of biopharmaceuticals to Cryo-EM analysis of protein complexes. The formation of an ice-water interface is… Click to show full abstract
The process of freezing proteins is widely used in applications ranging from processing and storage of biopharmaceuticals to Cryo-EM analysis of protein complexes. The formation of an ice-water interface is a critical destabilization factor for the protein, which can be offset by the use of cryo-protectants. Using molecular dynamics simulation, we demonstrate that the presence of the ice-water interfaces leads to a lowering of the free-energy barrier for unfolding, resulting in rapid unfolding of the protein. The unfolding process does not require direct adsorption of the protein to the surface, but is rather mediated by nearby liquid molecules that show an increased tendency for hydrating non-polar groups. The observed enhancement in the cold denaturation process upon ice formation can be mitigated by addition of glucose, that acts as a cryoprotectant through preferential exclusion from side-chains of the protein.
               
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