Measuring ligand-protein binding using NMR diffusion experiments

Pulsed-field gradient nuclear magnetic resonance (PFG-NMR) is a well-established method for the determination of translational diffusion coefficients. Recently, this method has found applicability in the combinatorial arena with the introduction of affinity NMR for characterizing protein/ligand inte

The described TROSY-based experiments for investigating backbone dynamics of proteins make it possible to elucidate internal motions in large proteins via measurements of T(1), T(2), and NOE of backbone (15)N nuclei. In our proposed sequences, the INEPT sequence is eliminated and the PEP sequence is

Thin polyethylene membranes permit ready diffusion of protonated long-chain fatty acids but are impermeable to protein and ions. This circumstance recommends polyethylene for measuring the free fraction of fatty acids in the presence of a binding protein and for estimating the ionization constant wi

## Abstract NMR diffusion measurements of samples with strong resonances are particularly problematic owing to the effects of radiation damping and become even more difficult at higher static fields and with more sensitive probes. Here, a new PGSE sequence incorporating __Q__‐switching that totally