Glass transition in biomolecules and the liquid-liquid critical point of water

Using molecular dynamics simulations, we investigate the relation between the dynamic transitions of biomolecules (lysozyme and DNA) and the dynamic and thermodynamic properties of hydration water. We find that the dynamic transition of the macromolecules, sometimes called a "protein glass tran...

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Bibliographic Details
Published inPhysical review letters Vol. 97; no. 17; p. 177802
Main Authors Kumar, Pradeep, Yan, Z, Xu, L, Mazza, M G, Buldyrev, S V, Chen, S-H, Sastry, S, Stanley, H E
Format Journal Article
LanguageEnglish
Published United States 27.10.2006
Subjects
Computer Simulation
DNA - chemistry
Glass - chemistry
Models, Chemical
Muramidase - chemistry
Temperature
Thermodynamics
Water - chemistry
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Summary:Using molecular dynamics simulations, we investigate the relation between the dynamic transitions of biomolecules (lysozyme and DNA) and the dynamic and thermodynamic properties of hydration water. We find that the dynamic transition of the macromolecules, sometimes called a "protein glass transition," occurs at the temperature of dynamic crossover in the diffusivity of hydration water and also coincides with the maxima of the isobaric specific heat C_{P} and the temperature derivative of the orientational order parameter. We relate these findings to the hypothesis of a liquid-liquid critical point in water. Our simulations are consistent with the possibility that the protein glass transition results from crossing the Widom line, which is defined as the locus of correlation length maxima emanating from the hypothesized second critical point of water.
ISSN:0031-9007
DOI:10.1103/physrevlett.97.177802