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Bibliographic Details
Main Authors: Štefanič, Z., Hribar-Lee, B.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.20051
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author Štefanič, Z.
Hribar-Lee, B.
author_facet Štefanič, Z.
Hribar-Lee, B.
contents Protein conformational stability and function depend on non-covalent interactions that are strongly influenced by the surrounding environment. To explore protein properties, amino acids are often utilized as model systems. In this study, we determined the densities of seven $α$-amino acids in aqueous solutions between 278.15 K and 308.15 K and calculated the apparent molar volumes. Linear extrapolation yielded standard molar volumes, which were analyzed to characterize amino-acid hydration. The contributions of side chains to the standard molar volume were determined relative to glycine. The standard molar volume increased with temperature, indicating reduced electrostriction of water around the amino acids, consistent with lower hydration numbers at higher temperatures. We employed the Ornstein-Zernike integral equation with hypernetted-chain closure and a coarse-grained Lennard-Jones bead model to calculate pair correlation functions and Kirkwood-Buff integrals, from which standard molar volumes were obtained. The model reproduced the experimental standard molar volumes very well.
format Preprint
id arxiv_https___arxiv_org_abs_2603_20051
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The application of Kirkwood-Buff theory to study hydration properties of $α$-amino acids
Štefanič, Z.
Hribar-Lee, B.
Soft Condensed Matter
Protein conformational stability and function depend on non-covalent interactions that are strongly influenced by the surrounding environment. To explore protein properties, amino acids are often utilized as model systems. In this study, we determined the densities of seven $α$-amino acids in aqueous solutions between 278.15 K and 308.15 K and calculated the apparent molar volumes. Linear extrapolation yielded standard molar volumes, which were analyzed to characterize amino-acid hydration. The contributions of side chains to the standard molar volume were determined relative to glycine. The standard molar volume increased with temperature, indicating reduced electrostriction of water around the amino acids, consistent with lower hydration numbers at higher temperatures. We employed the Ornstein-Zernike integral equation with hypernetted-chain closure and a coarse-grained Lennard-Jones bead model to calculate pair correlation functions and Kirkwood-Buff integrals, from which standard molar volumes were obtained. The model reproduced the experimental standard molar volumes very well.
title The application of Kirkwood-Buff theory to study hydration properties of $α$-amino acids
topic Soft Condensed Matter
url https://arxiv.org/abs/2603.20051