NMR study of the molecular dynamics of polycrystalline Thiourea under hydrostatic pressure

## Abstract The histidine‐containing protein (HPr) plays an important role in the phosphotransferase system (PTS). The deformations induced on the protein structure at high hydrostatic pressure values (4, 50, 100, 150, and 200 MPa) were previously (H. Kalbitzer, A. Görler, H. Li, P. Dubovskii, A. H

Results of 27 Al-NMR measurements on the heavy-electron compound CeAl 3 , recorded in low magnetic fields (of the order of 1 kG), very low temperatures ðTo1:5 KÞ, and at hydrostatic pressures up to 5.6 kbar are presented. We observe drastic changes of the NMR spectra and of the spin-lattice relaxati

Molecular motions of polycrystalline cellobiose have been investigated by measuring proton spin-lattice relaxation times, T1 and T1rho, and the second moment, M2, in both protonated and D2O exchanged forms over the temperature range 120-380 K. T1 relaxation is dominated by the motions of hydroxyl gr

The proton dynamics in phenylephrine hydrochloride, isoprenaline hydrochloride and norephedrine hydrochloride have been monitored by measuring the temperature dependence of the 'H spin-lattice relaxation times. The results are interpreted as due to C,-hindered reorientation of the NH, and CH, groups