Biophysical chemistry at the Department of Chemistry, University of Basel, covers the NMR analysis of protein–protein interaction using paramagnetic tags and sophisticated microscopy techniques investigating the dynamics of biological matter
The work presented in this thesis is centred around the magnetic anisotropy of lanthanoids and how i...
Rational drug design depends on the knowledge of the three-dimensional (3D) structure of complexes b...
Understanding biological phenomena at atomic resolution is one of the keys to modern drug design. In...
The application of paramagnetic lanthanoid chelating tags for the localization of ligands within bio...
The site-specific incorporation of paramagnetic lanthanide ions into proteins produces a number of u...
International audienceDiffusion ordered NMR is implemented to determine accurately the mobility of p...
A novel nuclear magnetic resonance (NMR) strategy based on labeling with lanthanides achieves rapid ...
Paramagnetic nuclear paramagnetic resonance (NMR) spectroscopy and Double Electron-Electron Resonanc...
Paramagnetic effects provide important structural and dynamic information of biomolecules. Howeve...
This PhD work presents the different approaches I have explored in order to develop a method to stud...
Paramagnetic centers in biomolecules, such as specific metal ions that are bound to a protein, affec...
The advent of different lanthanide-binding reagents has made site-specific labelling of proteins wit...
The paramagnetism of lanthanide ions offers outstanding opportunities for fast determinations of the...
Paramagnetic NMR spectroscopy is an indispensable tool in the study of biomolecules, especially prot...
Paramagnetic NMR methods are excellently suited for the study of protein–protein complexes in soluti...
The work presented in this thesis is centred around the magnetic anisotropy of lanthanoids and how i...
Rational drug design depends on the knowledge of the three-dimensional (3D) structure of complexes b...
Understanding biological phenomena at atomic resolution is one of the keys to modern drug design. In...
The application of paramagnetic lanthanoid chelating tags for the localization of ligands within bio...
The site-specific incorporation of paramagnetic lanthanide ions into proteins produces a number of u...
International audienceDiffusion ordered NMR is implemented to determine accurately the mobility of p...
A novel nuclear magnetic resonance (NMR) strategy based on labeling with lanthanides achieves rapid ...
Paramagnetic nuclear paramagnetic resonance (NMR) spectroscopy and Double Electron-Electron Resonanc...
Paramagnetic effects provide important structural and dynamic information of biomolecules. Howeve...
This PhD work presents the different approaches I have explored in order to develop a method to stud...
Paramagnetic centers in biomolecules, such as specific metal ions that are bound to a protein, affec...
The advent of different lanthanide-binding reagents has made site-specific labelling of proteins wit...
The paramagnetism of lanthanide ions offers outstanding opportunities for fast determinations of the...
Paramagnetic NMR spectroscopy is an indispensable tool in the study of biomolecules, especially prot...
Paramagnetic NMR methods are excellently suited for the study of protein–protein complexes in soluti...
The work presented in this thesis is centred around the magnetic anisotropy of lanthanoids and how i...
Rational drug design depends on the knowledge of the three-dimensional (3D) structure of complexes b...
Understanding biological phenomena at atomic resolution is one of the keys to modern drug design. In...
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