AI Article Synopsis
- Water sorption isotherms are crucial for understanding how proteins interact with water, but the reasons for hysteresis (the difference between adsorption and desorption) in these processes are still unclear.
- Researchers used a new simulation technique to analyze the water sorption isotherms of two proteins, lysozyme and Trp-cage, focusing on protein-water interactions during both adsorption and desorption.
- The study reveals that hydration differences occur at the amino acid level, particularly near polar or charged residues, and that modifying charged residues in Trp-cage can significantly reduce hysteresis.
Article Abstract
Despite the importance of water sorption isotherms for a fundamental understanding of protein-water interactions, the microscopic origin of hysteresis between the adsorption and desorption branches is not well understood. Using our recently developed simulation technique, we compute the water sorption isotherms of two proteins, lysozyme and Trp-cage, a miniprotein. We explicitly compare protein-water interactions in adsorption and desorption processes, by analyzing local hydration in terms of hydrogen bonding, water density, and solvent-accessible surface area. We find that significant differences in hydration behavior between adsorption and desorption manifest themselves at the individual amino acid level, in particular around polar or charged residues. We confirm this observation by demonstrating that Trp-cage's hysteresis can be significantly reduced by mutating charged residues to alanine, a neutral and nonpolar amino acid.
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| http://dx.doi.org/10.1021/acs.jpclett.7b00184 | DOI Listing |
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