High resolution inelastic X-ray scattering (IXS) experiments show that the “phonon energy softening” and “phonon population enhancement” observed in a hydrated native protein when increasing the temperature from 200 K to physiological temperature are not directly related to the protein structure. Such phenomena were also observed in a denatured sample without a defined tertiary structure and with a limited residual secondary structure. However, in a dry sample, such “softening” is strongly suppressed. These facts suggest that the above-mentioned protein “softening” phenomenon is water- induced. In addition, increasing the hydration level can also induce “phonon energy softening” at room temperature, but not at 200 K. This change may be due to a qualitative difference in the dynamics of hydration water at 200 K and at room temperature.
One role of hydration water in proteins: key to the “softening” of short time intraprotein collective vibrations of a specific length scale / Zhe Wang;Wei-Shan Chiang;Peisi Le;Emiliano Fratini;Mingda Li;Ahmet Alatas;Piero Baglioni;Sow-Hsin Chen. - In: SOFT MATTER. - ISSN 1744-683X. - STAMPA. - 10:(2014), pp. 4298-4303. [10.1039/c4sm00257a]
One role of hydration water in proteins: key to the “softening” of short time intraprotein collective vibrations of a specific length scale
FRATINI, EMILIANO;BAGLIONI, PIERO;
2014
Abstract
High resolution inelastic X-ray scattering (IXS) experiments show that the “phonon energy softening” and “phonon population enhancement” observed in a hydrated native protein when increasing the temperature from 200 K to physiological temperature are not directly related to the protein structure. Such phenomena were also observed in a denatured sample without a defined tertiary structure and with a limited residual secondary structure. However, in a dry sample, such “softening” is strongly suppressed. These facts suggest that the above-mentioned protein “softening” phenomenon is water- induced. In addition, increasing the hydration level can also induce “phonon energy softening” at room temperature, but not at 200 K. This change may be due to a qualitative difference in the dynamics of hydration water at 200 K and at room temperature.
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