Add to ORKGIn this thesis I study, by means of neutron scattering, calorimetry, and dielectric spectroscopy, the physical origin of protein dynamical transition (PDT) which is usually observed at ~230 K in protein hydrated powders and is deemed necessary for protein function. Measurements reported in this thesis have been performed on hydrated powders of Myoglobin. The combined use of different experimental techniques gives a coherent description of the PDT and reveals a connection with a liquid-liquid crossover occurring in the protein hydration water at about the same temperature. In order to deepen our understanding of this connection and to obtain a direct experimental evidence of the existence of a liquid-liquid transition (LLT) in supercooled wa...
Hydration water is the natural matrix of biological macromolecules and is essential for their activi...
In this work we present a thorough investigation of the hydration dependence of myoglobin dynamics. ...
AbstractInternal molecular motions of proteins are strongly affected by environmental conditions, li...
In this thesis I study, by means of neutron scattering, calorimetry, and dielectric spectroscopy, th...
In this work, we compare experimental data on myoglobin hydrated powders from elastic neutron scatte...
Proteins undergo a dynamic transition at approximately 220 K, also called protein ’glass’ transition...
This review article describes our neutron scattering experiments made in the past four years for the...
The temperature dependence of functional kinetics of hydrated proteins has been related to changes i...
A low-temperature dynamical transition has been reported in several proteins. We provide the first o...
AbstractExperimental and computer simulation studies have revealed the presence of a glasslike trans...
The dynamic transition found by Mössbauer spectroscopy and neutron scattering in hydrated and solvat...
The glass transition and its related dynamics of myroglobin in water and in a water-glycerol mixture...
International audienceProteins are the molecular workhorses in a living organism. Their 3D structure...
Water is the foundation of life, and without it life as we know it would not exist. An organism cons...
Using molecular dynamics simulations, we investigate the relation between the dynamic transitions of...
Hydration water is the natural matrix of biological macromolecules and is essential for their activi...
In this work we present a thorough investigation of the hydration dependence of myoglobin dynamics. ...
AbstractInternal molecular motions of proteins are strongly affected by environmental conditions, li...
In this thesis I study, by means of neutron scattering, calorimetry, and dielectric spectroscopy, th...
In this work, we compare experimental data on myoglobin hydrated powders from elastic neutron scatte...
Proteins undergo a dynamic transition at approximately 220 K, also called protein ’glass’ transition...
This review article describes our neutron scattering experiments made in the past four years for the...
The temperature dependence of functional kinetics of hydrated proteins has been related to changes i...
A low-temperature dynamical transition has been reported in several proteins. We provide the first o...
AbstractExperimental and computer simulation studies have revealed the presence of a glasslike trans...
The dynamic transition found by Mössbauer spectroscopy and neutron scattering in hydrated and solvat...
The glass transition and its related dynamics of myroglobin in water and in a water-glycerol mixture...
International audienceProteins are the molecular workhorses in a living organism. Their 3D structure...
Water is the foundation of life, and without it life as we know it would not exist. An organism cons...
Using molecular dynamics simulations, we investigate the relation between the dynamic transitions of...
Hydration water is the natural matrix of biological macromolecules and is essential for their activi...
In this work we present a thorough investigation of the hydration dependence of myoglobin dynamics. ...
AbstractInternal molecular motions of proteins are strongly affected by environmental conditions, li...