Hydrophobic surface residues can stabilize a protein through improved water-protein interactions.

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Protein stabilization is difficult to rationalize, but the detailed thermodynamic and structural analysis of a series of carefully designed mutants mayprovide experimental insights into the mechanisms underlying stabilization. Here, we report a systematic structural and thermodynamic analysis of bovine pancreatic trypsin inhibitor (BPTI) variants that are significantly stabilized through a single amino acid substitution at residue 38, which is located in a loop mostly exposed on the protein surface. Differential scanning calorimetry indicated that the BPTI-[5,55]Gly14 variantswith a single mutation at position 38 were stabilized in an enthalpy-driven manner and that the magnitude of the stabilization increased as the hydrophobicity of residue 38 increased. This increase in the thermal stability of BPTI was unexpected because a hydrophobic residue on a protein surface is usually destabilizing. To identify the structural determinants of this stabilization, we determined the crystalstructures of six BPTI-[5,55]Gly14 variants (Gly14 Gly38 , Gly14 Ala38 , Gly14 Val38 , Gly14 Leu38 , Gly14 Ile38 , and Gly14 Lys38 )at high resolutions and showed that theyretain essentially the same structure as the wild-type BPTI. Amore detailed examination of their structuresindicated that the extent of thermal stabilization correlated with both improved local packing and increased hydration around the substitution sites. In particular, the number of water molecules near residue 38 increased upon mutation to a hydrophobic residue suggesting that improved hydration contributed to the enthalpy-driven stabilization. Increasing a protein's thermal stability by the placement of a hydrophobic amino acid on the protein surface is a novel and unexpected phenomenon, and its exact nature is worth further examination, as it may provide a generic method for stabilizing proteins in an enthalpy-driven manner. DATABASE: The coordinates and structure factors of Gly14 Gly38 , Gly14 Ile38 , Gly14 Leu38 , and Gly14 Lys38 variants of BPTI-[5,55] are deposited in the Protein Data Bank under the PDB entry codes 5XX3, 5XX5, 5XX2, and 5XX4, respectively. We previously reported the structures of Gly14 Ala38 (2ZJX) and Gly14 Val38 (2ZVX).