Add to ORKGWe report quasi-elastic neutron scattering experiments to contrast the water dynamics as a function of temperature for hydrophilic and amphiphilic peptides under the same level of confinement, as models for understanding hydration dynamics near chemically heterogeneous protein surfaces. We find that the hydrophilic peptide shows only a single non-Arrhenius translational process with no evidence of spatial heterogeneity unlike the amphiphilic peptide solution that exhibits two translational relaxations with an Arrhenius and non-Arrhenius dependence on temperature. Together these results provide experimental proof that heterogeneous dynamical signatures near protein surfaces arise in part from chemical heterogeneity (energy disorder) as oppos...
Water 2H and 17O spin relaxation is used to study water dynamics in the hydration layers of two smal...
International audienceHydration water is the natural matrix of biological macromolecules and is esse...
Water plays a major role in biosystems, greatly contributing to determine their structure, stability...
We performed classical molecular dynamics simulations using both fixed-charge and polarizable water ...
Abstract. Thermodynamic and transport properties of liquid water are determined essentially by inter...
We perform neutron diffraction and quasi-elastic neutron scattering (QENS) to probe hydration water ...
Incoherent quasi-elastic neutron scattering studies of in vivo deuterated C-phycocyanin, at differen...
Incoherent quasi-elastic neutron scattering studies of in vivo deuterated C-phycocyanin, at differen...
AbstractThe evolution of water dynamics from dilute to very high concentration solutions of a protot...
The evolution of water dynamics from dilute to very high concentration solutions of a prototypical h...
AbstractWe present results from an extensive molecular dynamics simulation study of water hydrating ...
Abstract in UndeterminedDespite being one of the most well studied compounds on earth, with tremendo...
Hydration water is the natural matrix of biological macromolecules and is essential for their activi...
Hydration water on the surface of a protein is thought to mediate the thermodynamics of protein–liga...
Hydration water is the natural matrix of biological macromolecules and is essential for their activ...
Water 2H and 17O spin relaxation is used to study water dynamics in the hydration layers of two smal...
International audienceHydration water is the natural matrix of biological macromolecules and is esse...
Water plays a major role in biosystems, greatly contributing to determine their structure, stability...
We performed classical molecular dynamics simulations using both fixed-charge and polarizable water ...
Abstract. Thermodynamic and transport properties of liquid water are determined essentially by inter...
We perform neutron diffraction and quasi-elastic neutron scattering (QENS) to probe hydration water ...
Incoherent quasi-elastic neutron scattering studies of in vivo deuterated C-phycocyanin, at differen...
Incoherent quasi-elastic neutron scattering studies of in vivo deuterated C-phycocyanin, at differen...
AbstractThe evolution of water dynamics from dilute to very high concentration solutions of a protot...
The evolution of water dynamics from dilute to very high concentration solutions of a prototypical h...
AbstractWe present results from an extensive molecular dynamics simulation study of water hydrating ...
Abstract in UndeterminedDespite being one of the most well studied compounds on earth, with tremendo...
Hydration water is the natural matrix of biological macromolecules and is essential for their activi...
Hydration water on the surface of a protein is thought to mediate the thermodynamics of protein–liga...
Hydration water is the natural matrix of biological macromolecules and is essential for their activ...
Water 2H and 17O spin relaxation is used to study water dynamics in the hydration layers of two smal...
International audienceHydration water is the natural matrix of biological macromolecules and is esse...
Water plays a major role in biosystems, greatly contributing to determine their structure, stability...