Add to ORKGInternational audienceWe establish a method for assigning protein magic-angle spinning (MAS) NMR spectra that is based on tripleresonance techniques. It relies on perdeuteration, amide 2H/1H exchange, high magnetic fields, fast MAS, and enables automated assignment. The method is validated with examples covering microcrystalline proteins, a virus capsid and membrane-embedded systems. It eases and accelerates the assignment process, enabling NMR characterization of previously inaccessible biomolecules
We discuss the optimum experimental conditions to obtain assignment spectra for solid proteins at ma...
Using a set of six 1H-detected triple-resonance NMR experiments, we establish a method for sequence-...
Magic angle spinning solid-state NMR is a unique technique to study atomic-resolution structure of b...
Using a set of six 1H-detected triple-resonance NMR experiments, we establish a method for sequence-...
Using a set of six (1)H-detected triple-resonance NMR experiments, we establish a method for sequenc...
Using a set of six (1)H-detected triple-resonance NMR experiments, we establish a method for sequenc...
Using a set of six 1H-detected triple-resonance NMR experiments, we establish a method for sequence-...
Using a set of six H-1-detected triple-resonance NMR experiments, we establish a method for sequence...
Using a set of six <sup>1</sup>H-detected triple-resonance NMR experiments, we establish a method fo...
International audienceThanks to magic-angle spinning (MAS) probes with frequencies of 60-100 kHz, th...
International audienceThanks to magic-angle spinning (MAS) probes with frequencies of 60-100 kHz, th...
Thanks to magic-angle spinning (MAS) probes with frequencies of 60-100 kHz, the benefit of high sens...
Solid-state NMR spectroscopy proved to be a versatile tool for characterization of structure and dyn...
Using a set of six [superscript 1]H-detected triple-resonance NMR experiments, we establish a method...
Over the last 15 years solid-state NMR (ssNMR) has undergone a huge leap forward, particularly as a ...
We discuss the optimum experimental conditions to obtain assignment spectra for solid proteins at ma...
Using a set of six 1H-detected triple-resonance NMR experiments, we establish a method for sequence-...
Magic angle spinning solid-state NMR is a unique technique to study atomic-resolution structure of b...
Using a set of six 1H-detected triple-resonance NMR experiments, we establish a method for sequence-...
Using a set of six (1)H-detected triple-resonance NMR experiments, we establish a method for sequenc...
Using a set of six (1)H-detected triple-resonance NMR experiments, we establish a method for sequenc...
Using a set of six 1H-detected triple-resonance NMR experiments, we establish a method for sequence-...
Using a set of six H-1-detected triple-resonance NMR experiments, we establish a method for sequence...
Using a set of six <sup>1</sup>H-detected triple-resonance NMR experiments, we establish a method fo...
International audienceThanks to magic-angle spinning (MAS) probes with frequencies of 60-100 kHz, th...
International audienceThanks to magic-angle spinning (MAS) probes with frequencies of 60-100 kHz, th...
Thanks to magic-angle spinning (MAS) probes with frequencies of 60-100 kHz, the benefit of high sens...
Solid-state NMR spectroscopy proved to be a versatile tool for characterization of structure and dyn...
Using a set of six [superscript 1]H-detected triple-resonance NMR experiments, we establish a method...
Over the last 15 years solid-state NMR (ssNMR) has undergone a huge leap forward, particularly as a ...
We discuss the optimum experimental conditions to obtain assignment spectra for solid proteins at ma...
Using a set of six 1H-detected triple-resonance NMR experiments, we establish a method for sequence-...
Magic angle spinning solid-state NMR is a unique technique to study atomic-resolution structure of b...