Add to ORKGMAS NMR spectroscopy can be combined with the advantages of uniaxially ordered samples of membrane proteins as demonstrated in the so-called MAOSS (magic angle oriented sample spinning) experiment. Under these conditions, dipolar recoupling methods can be used to determine the orientation of internuclear vectors with respect to the MAS rotor frame. However, most approaches to measure dipolar couplings yield angle ambiguities even in the static, non-spinning case. Here, we present the possibility to overcome these problems by deriving a new homonuclear double-quantum radio frequency pulse sequence based on an eightfold symmetry. Only dipolar Hamiltonian terms with spatial components m=±2 are recoupled with high efficiency allowing unambiguou...
Structure determination by solid-state NMR of proteins is rapidly advancing as a result of recent de...
Anisotropy of the magnetic susceptibility tensor, x, of relatively efficient 1H – 1H spin flips of t...
Order parameters are a useful tool for quantifying amplitudes of molecular motions. Here we measure ...
The application of magic angle sample spinning (MAS) NMR to uniformly aligned biomembrane samples is...
We present the first application of MAOSS (magic angle oriented sample spinning) NMR spectroscopy to...
Structural models of membrane proteins can be refined with sets of multiple orientation constraints ...
A method for making resonance assignments in magic angle spinning solid-state NMR spectra of membran...
International audienceBuilding on a decade of continuous advances of the community, the recent devel...
AbstractStructural models of membrane proteins can be refined with sets of multiple orientation cons...
Building on a decade of continuous advances of the community, the recent development of very fast (6...
Magic-angle spinning (MAS) is an essential ingredient in a wide variety of solid-state NMR experimen...
Several hundred solid state NMR dipolar couplings and chemical shift anisotropies were simulated for...
Although the strong 1H-1H dipolar interaction is known to result in severe homogeneous broadening of...
Residual dipolar couplings for pairs of proximate magnetic nuclei in macromolecules can easily be me...
AbstractFor many biological molecules, determining their geometry as they exist in a membrane enviro...
Structure determination by solid-state NMR of proteins is rapidly advancing as a result of recent de...
Anisotropy of the magnetic susceptibility tensor, x, of relatively efficient 1H – 1H spin flips of t...
Order parameters are a useful tool for quantifying amplitudes of molecular motions. Here we measure ...
The application of magic angle sample spinning (MAS) NMR to uniformly aligned biomembrane samples is...
We present the first application of MAOSS (magic angle oriented sample spinning) NMR spectroscopy to...
Structural models of membrane proteins can be refined with sets of multiple orientation constraints ...
A method for making resonance assignments in magic angle spinning solid-state NMR spectra of membran...
International audienceBuilding on a decade of continuous advances of the community, the recent devel...
AbstractStructural models of membrane proteins can be refined with sets of multiple orientation cons...
Building on a decade of continuous advances of the community, the recent development of very fast (6...
Magic-angle spinning (MAS) is an essential ingredient in a wide variety of solid-state NMR experimen...
Several hundred solid state NMR dipolar couplings and chemical shift anisotropies were simulated for...
Although the strong 1H-1H dipolar interaction is known to result in severe homogeneous broadening of...
Residual dipolar couplings for pairs of proximate magnetic nuclei in macromolecules can easily be me...
AbstractFor many biological molecules, determining their geometry as they exist in a membrane enviro...
Structure determination by solid-state NMR of proteins is rapidly advancing as a result of recent de...
Anisotropy of the magnetic susceptibility tensor, x, of relatively efficient 1H – 1H spin flips of t...
Order parameters are a useful tool for quantifying amplitudes of molecular motions. Here we measure ...