Proton detection developed in the last 20 years as the method of choice to study
biomolecules in the solid state. In perdeuterated proteins, proton dipolar interactions are …

Building on a decade of continuous advances of the community, the recent development of
very fast (60 kHz and above) magic-angle spinning (MAS) probes has revolutionised the …

The detailed mechanism of ATP hydrolysis in ATP-binding cassette (ABC) transporters is still
not fully understood. Here, we employed 31P solid-state NMR to probe the conformational …

Membrane proteins are important players in signal transduction and the exchange of
metabolites within or between cells. Thus, this protein class is the target of around 60% of …

Simple Summary Cells, life's smallest units, are defined within the enclosure of thin,
continuous membranes, which confine the molecular machinery required for the life and …

The prerequisite to structural or functional studies of proteins by NMR is generally the
assignment of resonances. Since the first assignment of proteins by solid-state MAS NMR …

Proton‐detected 100 kHz magic‐angle‐spinning (MAS) solid‐state NMR is an emerging
analysis method for proteins with only hundreds of microgram quantities, and thus allows …

Obtaining site-specific assignments for the NMR spectra of proteins in the solid state is a
significant bottleneck in deciphering their biophysics. This is primarily due to the time …

Membrane proteins are known to exert many essential biological functions by forming
complexes in cell membranes. An example refers to the β‐barrel assembly machinery …

Magnetic field drift during magic angle spinning (MAS) NMR measurements is detrimental to
the spectra, causing broadening of lines and distortion of lineshapes, especially in high …