Add to ORKGElectron and nuclear magnetic spectroscopies are powerful tools for studying molecular dynamics, being particularly sensitive to motions with relaxation times in the range of 10−9 - 10−6 s. This time window includes rigid body motions in fluids and ”soft” internal motions of molecules. Moreover, dynamics in this range comprehend proteins internal motions responsible for relevant chemical-physical properties, like substrate recognition, activity and folding. In a typical electron spin resonance (ESR) experiment molecular motions affect considerably the shape of the spectral line. In a nuclear magnetic resonance (NMR) experiment characteristic relaxations times of the spin magnetization, i.e. T1, T2 and NOE, are directly affected by ...
This thesis discusses the measurement of molecular dynamics and distances in spin-labeled macromolec...
The dynamic nature of proteins is a topic of increasing importance in the field of structural biolog...
Understanding biological processes requires knowledge about the structure as well as dynamics of the...
Spectroscopic observables can be used for monitoring relaxation processes of molecules. In particula...
Dynamical aspects have a central role in the biological function of proteins. Each motional process ...
Using atomistic molecular dynamics (MD) simulations in the interpretation of multifrequency electron...
Using atomistic molecular dynamics (MD) simulations in the interpretation of mul-tifrequency electro...
AbstractElectron paramagnetic resonance (EPR) spectroscopy using site-directed spin-labeling is an a...
Electron spin resonance (ESR) spectra of biological macromolecules reflect a wide range of dynamical...
International audienceNuclear magnetic resonance (NMR) spin relaxation experiments currently probe m...
A general approach for the prediction of EPR spectra directly and completely from single dynamical t...
University of Minnesota Ph.D. dissertation.April 2019. Major: Physics. Advisor: David Thomas. 1 comp...
We discuss in this work a new software tool, named E-SpiReS (Electron Spin Resonance Simulations), a...
La thèse décrit la complexité de la dynamique locale des protéines dépliées sur des échelles de temp...
AbstractModern NMR has revitalized the study of protein dynamics. Multidimensional spectra and the h...
This thesis discusses the measurement of molecular dynamics and distances in spin-labeled macromolec...
The dynamic nature of proteins is a topic of increasing importance in the field of structural biolog...
Understanding biological processes requires knowledge about the structure as well as dynamics of the...
Spectroscopic observables can be used for monitoring relaxation processes of molecules. In particula...
Dynamical aspects have a central role in the biological function of proteins. Each motional process ...
Using atomistic molecular dynamics (MD) simulations in the interpretation of multifrequency electron...
Using atomistic molecular dynamics (MD) simulations in the interpretation of mul-tifrequency electro...
AbstractElectron paramagnetic resonance (EPR) spectroscopy using site-directed spin-labeling is an a...
Electron spin resonance (ESR) spectra of biological macromolecules reflect a wide range of dynamical...
International audienceNuclear magnetic resonance (NMR) spin relaxation experiments currently probe m...
A general approach for the prediction of EPR spectra directly and completely from single dynamical t...
University of Minnesota Ph.D. dissertation.April 2019. Major: Physics. Advisor: David Thomas. 1 comp...
We discuss in this work a new software tool, named E-SpiReS (Electron Spin Resonance Simulations), a...
La thèse décrit la complexité de la dynamique locale des protéines dépliées sur des échelles de temp...
AbstractModern NMR has revitalized the study of protein dynamics. Multidimensional spectra and the h...
This thesis discusses the measurement of molecular dynamics and distances in spin-labeled macromolec...
The dynamic nature of proteins is a topic of increasing importance in the field of structural biolog...
Understanding biological processes requires knowledge about the structure as well as dynamics of the...