Prediction of proton relaxation rates from measurements of deuterium relaxation in aqueous systems

It is well established that the longitudinal magnetic relaxation rate of solvent water protons, 1/T1, increases markedly in homogeneous protein solutions as the magnetic field is reduced well below the traditional NMR range. For a 5% solution of protein of 10(5) Da, for example, 1/T1 increases from

A quadrupolar-ccbo Fourier transform&ion technique ~3s used to ~CZQWZ Tz IS a funcrion of director orientation in model membrane systems from powder spectra with residual quadrupolar splittings. Tbc relaxation function is exponenttil for nil systems nnd orientrrtions, giving rise to Lorcntzian-broad

## Abstract Methods for analyzing reaction rate data obtained from fluorescent decays distorted by flow effects are discussed, with particular reference to the measurement of relaxation rates in flowing mixtures containing reactive species by the laser‐induced fluorescence technique.

The effect of isotopic proton-deuterium substitution of mobile protons on carbon spin-lattice relaxation rate is analyzed. The experimental results show that only carhonyl carbons are affected by the isotopic exchange and this is due to the fact that they follow a different relaxation pathway to pro