Add to ORKGNon-linear electron spin resonance (EPR) techniques suitable for measuring proximity relationships in membranes are reviewed. These were developed during the past decade in order to measure changes sensitively in the spin-lattice relaxation time (T-1) of nitroxyl spin labels covalently attached to membrane lipids or proteins. In combination with paramagnetic quenching agents and double spin-labelling, the methods were further developed for distance measurements. Selected examples are given to illustrate different methods, and types of data obtained for both integral and peripheral membrane proteins
ABSTRACT: The interaction of lipids, spin-labeled at different positions in the sn-2 chain, with cyt...
Electron paramagnetic resonance (EPR) spectroscopy provides a variety of tools to study structures a...
Molecular oxygen (O2) is the perfect probe molecule for membrane studies carried out using the satur...
Non-linear electron spin resonance (EPR) techniques suitable for measuring proximity relationships i...
We provide a review of current electron spin resonance (ESR) techniques for studying basic molecular...
Site-directed spin labeling (SDSL) in combination with electron paramagnetic resonance (EPR) spectro...
Trapping membrane proteins in the confines of a crystal lattice obscures dynamic modes essential for...
Membrane proteins are essential for the survival of living organisms. They are involved in important...
AbstractThe distribution of the lipid-attached doxyl electron paramagnetic resonance (EPR) spin labe...
This chapter provides an overview for performing and interpreting electron paramagnetic resonance (E...
International audienceSite-Directed Spin Labelling (SDSL) technique consists in the attachment of a ...
International audienceSite-Directed Spin Labelling (SDSL) technique consists in the attachment of a ...
International audienceSite-Directed Spin Labelling (SDSL) technique consists in the attachment of a ...
Cellular membranes and associated proteins play critical physiological roles in organisms from all l...
Site-Directed Spin Labeling Electron Paramagnetic Resonance (SDSL-EPR) offers a powerful method for ...
ABSTRACT: The interaction of lipids, spin-labeled at different positions in the sn-2 chain, with cyt...
Electron paramagnetic resonance (EPR) spectroscopy provides a variety of tools to study structures a...
Molecular oxygen (O2) is the perfect probe molecule for membrane studies carried out using the satur...
Non-linear electron spin resonance (EPR) techniques suitable for measuring proximity relationships i...
We provide a review of current electron spin resonance (ESR) techniques for studying basic molecular...
Site-directed spin labeling (SDSL) in combination with electron paramagnetic resonance (EPR) spectro...
Trapping membrane proteins in the confines of a crystal lattice obscures dynamic modes essential for...
Membrane proteins are essential for the survival of living organisms. They are involved in important...
AbstractThe distribution of the lipid-attached doxyl electron paramagnetic resonance (EPR) spin labe...
This chapter provides an overview for performing and interpreting electron paramagnetic resonance (E...
International audienceSite-Directed Spin Labelling (SDSL) technique consists in the attachment of a ...
International audienceSite-Directed Spin Labelling (SDSL) technique consists in the attachment of a ...
International audienceSite-Directed Spin Labelling (SDSL) technique consists in the attachment of a ...
Cellular membranes and associated proteins play critical physiological roles in organisms from all l...
Site-Directed Spin Labeling Electron Paramagnetic Resonance (SDSL-EPR) offers a powerful method for ...
ABSTRACT: The interaction of lipids, spin-labeled at different positions in the sn-2 chain, with cyt...
Electron paramagnetic resonance (EPR) spectroscopy provides a variety of tools to study structures a...
Molecular oxygen (O2) is the perfect probe molecule for membrane studies carried out using the satur...