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Dynamics in Biological Systems as seen by QENS
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A. M. Stadler
Veröffentlicht/Copyright:
16. April 2010
Abstract
Quasielastic incoherent neutron scattering is a well suited and established experimental method to study protein and water dynamics in the picosecond to nanosecond time- and Ångstrom length-scale. Using deuterium labelling either protein or water motions can be selected and brought into focus. Protein and cell water dynamics were separately studied in red blood cells. A consistent picture of cytoplasmic water and protein dynamics in whole cells is emerging from recent experimental results.
Published Online: 2010-4-16
Published in Print: 2010-2-1
© by Oldenbourg Wissenschaftsverlag, München, Germany
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Artikel in diesem Heft
- Preface
- Editorial - Ad Memoriam Michael Prager
- Introduction to Quasielastic Neutron Scattering
- Recent Backscattering Instrument Developments at the ILL and SNS
- Surface Diffusion Studies Using Neutron and Helium Spin-echo Spectroscopy
- Slow Dynamics in Liquid Metals as Seen by QENS
- Are the Glass Forming Properties of Glycerol Changed when Disrupting the Hydrogen Bond Network by Addition of Silica Nanospheres?
- The Dynamic Response Function χT(Q,t) of Confined Supercooled Water and its Relation to the Dynamic Crossover Phenomenon
- Dynamics of Propylene adsorbed in Na-Y and Na-ZSM5 Zeolites: A QENS and MD Simulation Study
- Dynamics in Clays - Combining Neutron Scattering and Microscopic Simulation
- Concrete and Cement Paste Studied by Quasi-Elastic Neutron Scattering
- Dynamics in Biological Systems as seen by QENS
- Study of Protein Dynamics vs. Amyloid Formation
- Dynamics of Nanostructures for Drug Delivery: the Potential of QENS
- Dynamical Properties of Decorated Lamellar Microemulsions in the Brush Regime
- Monomer Dynamics in SDS Micellar Solution
- Hydrogen Dynamics in Lightweight Tetrahydroborates
- Dynamics of Caged Hydronium Ions and Super-protonic Conduction in (H3O)SbTeO6
Artikel in diesem Heft
- Preface
- Editorial - Ad Memoriam Michael Prager
- Introduction to Quasielastic Neutron Scattering
- Recent Backscattering Instrument Developments at the ILL and SNS
- Surface Diffusion Studies Using Neutron and Helium Spin-echo Spectroscopy
- Slow Dynamics in Liquid Metals as Seen by QENS
- Are the Glass Forming Properties of Glycerol Changed when Disrupting the Hydrogen Bond Network by Addition of Silica Nanospheres?
- The Dynamic Response Function χT(Q,t) of Confined Supercooled Water and its Relation to the Dynamic Crossover Phenomenon
- Dynamics of Propylene adsorbed in Na-Y and Na-ZSM5 Zeolites: A QENS and MD Simulation Study
- Dynamics in Clays - Combining Neutron Scattering and Microscopic Simulation
- Concrete and Cement Paste Studied by Quasi-Elastic Neutron Scattering
- Dynamics in Biological Systems as seen by QENS
- Study of Protein Dynamics vs. Amyloid Formation
- Dynamics of Nanostructures for Drug Delivery: the Potential of QENS
- Dynamical Properties of Decorated Lamellar Microemulsions in the Brush Regime
- Monomer Dynamics in SDS Micellar Solution
- Hydrogen Dynamics in Lightweight Tetrahydroborates
- Dynamics of Caged Hydronium Ions and Super-protonic Conduction in (H3O)SbTeO6
