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Elucidation of pH-Induced Protein Structural Changes: A Combined 2D IR and Computational Approach

Shivshankar Kore, Samadhan H. Deshmukh, Sushil S. Sakpal, Srijan Chatterjee, Atanu Das, Sayan Bagchi

2022Biochemistry10 citationsDOI

Abstract

values of these amino acids shift from their respective solution values. As the side chains interact with the polypeptide backbone, a pH-induced change in the protonation state of aspartic and glutamic acids might significantly influence the structure and stability of a protein. In this work, we have combined two-dimensional infrared spectroscopy and molecular dynamics simulations to elucidate the pH-induced structural changes in an antimicrobial enzyme, lysozyme, over a wide range of pH. Simultaneous measurements of the carbonyl signals arising from the backbone and the acidic side chains provide detailed information about the pH dependence of the local and global structural features. An excellent agreement between the experimental and the computational results allowed us to obtain a residue-specific molecular understanding. Although lysozyme retains the helical structure for the entire pH range, one distinct loop region (residues 65-75) undergoes local structural deformation at low pH. Interestingly, combining our experiments and simulations, we have identified the aspartic acid residues in lysozyme, which are influenced the most/least by pH modulation.

Topics & Concepts

LysozymeProtonationSide chainChemistryAspartic acidMolecular dynamicsResidue (chemistry)Amino acidProtein structureGlutamic acidMoleculeAmino acid residueStereochemistryCrystallographyComputational chemistryPeptide sequenceBiochemistryOrganic chemistryPolymerGeneIonSpectroscopy and Quantum Chemical StudiesProtein Structure and DynamicsPhotosynthetic Processes and Mechanisms