2009
DOI: 10.4149/gpb_2009_02_168
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Dynamics of hydration water in proteins

Abstract: Abstract. Thermodynamic and transport properties of liquid water are determined essentially by inter-molecular hydrogen bonds and their dynamics. Because the molecular dynamics depends mostly on geometric constrains and dynamics of hydrogen bonds, it is shown that a simple statistics on the number of bonds, including at the vicinity of hydrophilic substrates describes well the temperature dependence of water diffusion on the surface of a small peptide.Experiments were performed by incoherent quasi-elastic neut… Show more

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Cited by 22 publications
(14 citation statements)
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“…Interactions between amino acids side chains and waters contribute to the stabilization of the native, thus functional, protein conformation. The interactions between water molecules and a small hydrophobic pentapeptide ([Ala] 5 ), have been studied at controlled levels of hydration, by adding successively, up to 25 water molecules per peptide (this level corresponding to full hydration) [57] . The first added water molecules form naturally bonds with the hydrophilic part of the pentapeptide while the next added ones are confined to the surface of alanine without bond formation.…”
Section: Discussionmentioning
confidence: 99%
“…Interactions between amino acids side chains and waters contribute to the stabilization of the native, thus functional, protein conformation. The interactions between water molecules and a small hydrophobic pentapeptide ([Ala] 5 ), have been studied at controlled levels of hydration, by adding successively, up to 25 water molecules per peptide (this level corresponding to full hydration) [57] . The first added water molecules form naturally bonds with the hydrophilic part of the pentapeptide while the next added ones are confined to the surface of alanine without bond formation.…”
Section: Discussionmentioning
confidence: 99%
“… 61 - 63 Such proton charge shifts have been shown to produce mechanical alterations at articular cartilage surfaces 2 , 3 through electrochemomechanical coupling via site-specific hydrogen and disulfide bond alterations within constituent proteoglycan and collagen. 64 - 69 These targeted gradients at tissue surfaces modulate mechanical and electrochemical tissue matrix properties by altering fixed and variable charge densities while effecting consequent extracellular intrafibrillar hydration and osmotic character. 70 - 79 This physiochemical loading of accessible surface-based diseased tissue can alter the relative ratio of tension compression nonlinearity toward a state amenable to gentle shear deformation mechanical debridement of tissue already characterized by the deteriorating surface-layered shear properties of collagen fibril disruption and orientation changes, weak collagen-to-proteoglycan bonds, proteoglycan and lipid depletion, aberrant water content, and decreased fixed charge density.…”
Section: Introductionmentioning
confidence: 99%
“…The steeper increase above 220-230 K is usually correlated with the so called dynamic transition, reflecting the increase in internal rotation and translation dynamics. 9,12,13,23,24,28,32 The hu 2 i values for a nominally dry sample (Fig. 1, inset) shows linear temperature dependence up to about 240 K, and a deviation from linearity above this temperature.…”
Section: Neutron Scatteringmentioning
confidence: 96%
“…Nevertheless, many aspects regarding its particular structure near the surface and inside biological macromolecules as well as its link to biological function are still under discussion. [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17] Proteins are known to have a ''limiting hydration'' necessary for function, and thus there must exist a link between hydration and protein functional properties.…”
Section: Introductionmentioning
confidence: 99%