NMR studies of hydration in low water content biopolymer systems

## Abstract Experimental data are presented to show the points of incipient hydrate formation in the methane‐propylene‐water system. The addition of 1.4% propylene to methane lowered the equilibrium pressure 400 lb./sq. in. at 50°F. The locus of the four‐phase equilibrium consisting of hydrate, vap

High-resolution \*H-nmr is employed to monitor the D20 in hydrated solids of Li-DNA prepared from solution by three different methods: lyophilization, slow evaporation of the water, and wet spinning in alcohol. From the spectral shapes and spin-spin relaxation measurements, the DNA in the lyophilize

Water proton transverse relaxation times (T 2 ) and self-diffusion coefficients (D) were measured in randomly oriented hydrated collagen fibers. Three T 2 relaxation times were discerned indicating the presence of at least three water fractions in the collagen sample. The D values associated with ea

## Abstract Transverse nuclear magnetic relaxation and self‐diffusion of water were measured in hydrated collagen II. Self‐diffusion measurements were conducted by pulsed field gradient NMR (PFG NMR) and weighting of the different species in the signal by variable __T__~2~ relaxation in the experim

Studies of the freeze-thaw behavior of low-concentrated (0.01-0.25 g/dL) water solutions and dilute pastes (0.5-1.0 g/dL) of maize starch amylopectin showed that cryogenic treatment of these systems resulted in the formation of precipitated matter, whose yield and thermal characteristics (melting te

Multiple-quantum Ðltering NMR sequences were used to study the multiexponential relaxation behaviour of in the presence of macromolecules. By this means, the fraction and the correlation time of water in slow H 2 17O motion, or "boundÏ water, were determined, in addition to the relaxation time of bu