The characterization of proteins in the dry state has implications for the pharmaceutical industry, since it provides deeper understanding of the effect of lyophilisation on the stability and biological activity of bio-macromolecular drugs. We have performed structural and dynamical analyses on a series of lyophilised and hydrated bio-macromolecules with varying degrees of structural complexity by means of Molecular Dynamics (MD) simulations; the simulated dynamical results being compared to experimental findings obtained from neutron scattering. Atomistic simulation of lyophilised proteins is still a challenge since the available force fields, and water molecule topology, used for the modelling have to be carefully correlated with exper...
The motivation of the study presented here is to investigate how hydrostatic pressure influences the...
The tau protein, whose aggregates are involved in Alzheimer’s disease, is an intrinsically disordere...
This contribution highlights the recently developed microscopic picture of the effects of hydration ...
The characterization of proteins in the dry state has implications for the pharmaceutical industry, ...
The characterization of proteins in the dry state has implications for the pharmaceutical industry, ...
The characterization of proteins in the dry state has implications for the pharmaceutical industry,...
This review article describes our neutron scattering experiments made in the past four years for the...
AbstractWe performed an elastic neutron scattering investigation of the molecular dynamics of lysozy...
AbstractWe present results from an extensive molecular dynamics simulation study of water hydrating ...
Water plays a major role in biosystems, greatly contributing to determine their structure, stability...
Neutron scattering techniques represent a powerful tool for characterizing both the structure and dy...
International audienceThe tau protein, whose aggregates are involved in Alzheimer's disease, is an i...
AbstractQuasielastic neutron and light-scattering techniques along with molecular dynamics simulatio...
AbstractThis paper reports an incoherent quasielastic neutron scattering study of the single particl...
The motivation of the study presented here is to investigate how hydrostatic pressure influences the...
The tau protein, whose aggregates are involved in Alzheimer’s disease, is an intrinsically disordere...
This contribution highlights the recently developed microscopic picture of the effects of hydration ...
The characterization of proteins in the dry state has implications for the pharmaceutical industry, ...
The characterization of proteins in the dry state has implications for the pharmaceutical industry, ...
The characterization of proteins in the dry state has implications for the pharmaceutical industry,...
This review article describes our neutron scattering experiments made in the past four years for the...
AbstractWe performed an elastic neutron scattering investigation of the molecular dynamics of lysozy...
AbstractWe present results from an extensive molecular dynamics simulation study of water hydrating ...
Water plays a major role in biosystems, greatly contributing to determine their structure, stability...
Neutron scattering techniques represent a powerful tool for characterizing both the structure and dy...
International audienceThe tau protein, whose aggregates are involved in Alzheimer's disease, is an i...
AbstractQuasielastic neutron and light-scattering techniques along with molecular dynamics simulatio...
AbstractThis paper reports an incoherent quasielastic neutron scattering study of the single particl...
The motivation of the study presented here is to investigate how hydrostatic pressure influences the...
The tau protein, whose aggregates are involved in Alzheimer’s disease, is an intrinsically disordere...
This contribution highlights the recently developed microscopic picture of the effects of hydration ...