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Crystal structures of highly simplified BPTIs provide insights into hydration-driven increase of unfolding enthalpy.


ABSTRACT: We report a thermodynamic and structural analysis of six extensively simplified bovine pancreatic trypsin inhibitor (BPTI) variants containing 19-24 alanines out of 58 residues. Differential scanning calorimetry indicated a two-state thermal unfolding, typical of a native protein with densely packed interior. Surprisingly, increasing the number of alanines induced enthalpy stabilization, which was however over-compensated by entropy destabilization. X-ray crystallography indicated that the alanine substitutions caused the recruitment of novel water molecules facilitating the formation of protein-water hydrogen bonds and improving the hydration shells around the alanine's methyl groups, both of which presumably contributed to enthalpy stabilization. There was a strong correlation between the number of water molecules and the thermodynamic parameters. Overall, our results demonstrate that, in contrast to our initial expectation, a protein sequence in which over 40% of the residues are alanines can retain a densely packed structure and undergo thermal denaturation with a large enthalpy change, mainly contributed by hydration.

SUBMITTER: Islam MM 

PROVIDER: S-EPMC5339861 | biostudies-literature | 2017 Mar

REPOSITORIES: biostudies-literature

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Crystal structures of highly simplified BPTIs provide insights into hydration-driven increase of unfolding enthalpy.

Islam Mohammad Monirul MM   Yohda Masafumi M   Kidokoro Shun-Ichi SI   Kuroda Yutaka Y  

Scientific reports 20170307


We report a thermodynamic and structural analysis of six extensively simplified bovine pancreatic trypsin inhibitor (BPTI) variants containing 19-24 alanines out of 58 residues. Differential scanning calorimetry indicated a two-state thermal unfolding, typical of a native protein with densely packed interior. Surprisingly, increasing the number of alanines induced enthalpy stabilization, which was however over-compensated by entropy destabilization. X-ray crystallography indicated that the alani  ...[more]

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