The low-temperature dynamic crossover phenomenon in protein hydration water: Simulations vs experiments

Lagi, Marco; Chu, X. Q.; Kim, C. S.; Mallamace, F.; Baglioni, Piero; Chen, S. H.

doi:10.1021/jp710714j

A super-Arrhenius-to-Arrhenius dynamic crossover phenomenon has been observed in the translational (x-relaxation time and in the inverse of the self-diffusion constant both experimentally and by simulations for lysozyme hydration water in the temperature range of T-L = 223 +/- 2 K. MD simulations are based on a realistic hydrated powder model, which uses the TIP4P-Ew rigid molecular model for the hydration water. The convergence of neutron scattering, nuclear magnetic resonance and molecular dynamics simulations supports the interpretation that this crossover is a result of the gradual evolution of the structure of hydration water from a high-density liquid to a low-density liquid form upon crossing of the Widom line above the possible liquid-liquid critical point of water.

The low-temperature dynamic crossover phenomenon in protein hydration water: Simulations vs experiments / M. Lagi; X.Q. Chu; C.S. Kim; F. Mallamace; P. Baglioni; S.H. Chen. - In: JOURNAL OF PHYSICAL CHEMISTRY. B, CONDENSED MATTER, MATERIALS, SURFACES, INTERFACES & BIOPHYSICAL. - ISSN 1520-6106. - STAMPA. - 112:(2008), pp. 1571-1575. [10.1021/jp710714j]