John R. Hansen scite author profile

SynopsisA model for the hydration behavior of human stratum corneum has been developed from measurements on in vitro samples isolated in a manner which minimized tissue treatment and trauma. Water sorpt~ion/desorption rate meslsurements as a function of water activity, temperature, and tissue integrity are reported. These data, together with thermodynamic data (infrared and nmr results reported earlier) are consistent with a model in which rapidly sorbed/desorbed water (ca. 0.5 mg water/mg stratum corneum) is associated with ("bound" by) the tissue, while slowly sorbed/desorbed "free" water (up to 12 mg water/mg stratum corneum) is kinetically restricted and probably intracellular in location. Both equilibrium water binding and desorption kinetic data suggest structural changes of this cellular water barrier upon hydration. Evidence for hysteresis in water sorption isotherms (reported by others) could not be reproduced.

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NMR and Intrared Spectroscopic Studies of Stratum Corneum Hydration

Hansen¹,

Yellin²

1972

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Pulsed NMR study of water mobility in muscle and brain tissue

Hansen

1971

Biochimica et Biophysica Acta (BBA) - General Subjects

125

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Modification of the physical properties of soy protein isolate by acetylation

Barman¹,

Hansen²,

Mossey³

1977

J. Agric. Food Chem.

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The predictions of previously developed models for the hydration, gelation, and solubility of soy protein isolate regarding the effect of a chemical modification (acetylation) of the protein have been borne out by experiment. Acetylation decreased water binding, increased solubility in the pH 4.5-7 range, and decreased gel strength of soy protein isolate. A shift in molecular weight distribution of the protein to lower molecular weight species also occurred. This work shows that the functional properties (in a food use context) of soy proteins can be altered by chemical modification and that the effect of a particular chemical modification of these properties can be predicted.

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John R. Hansen

Hydration of soybean protein

Hydration of stratum corneum

NMR and Intrared Spectroscopic Studies of Stratum Corneum Hydration

Pulsed NMR study of water mobility in muscle and brain tissue

Modification of the physical properties of soy protein isolate by acetylation

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