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Literature DB >> 6033591

The effect of the unstirred layer on human red cell water permeability.

R I Sha'afi, G T Rich, V W Sidel, W Bossert, A K Solomon.

Abstract

A study has been made of water entry into human red blood cells under an osmotic pressure gradient. The measurements were made using a rapid reaction stop flow apparatus, whose construction, calibration, and performance are described in detail. Red cell volume changes were determined from 90 degrees scattered light. The permeability coefficient for water entry under a relative isosmolar concentration of 1 to 1.5 was found to be 0.22 +/- 0.01 cm(4)/sec osmol, which agrees well with our previously published value. The experiments were also designed to measure the thickness of the unstirred layer around the6 red cells. This was found to be 5.5 +/- 0.8 micro under the present experimental conditions. It is concluded that our previously measured permeability coefficient for water entrance under a diffusion gradient does not require correction on account of the unstirred layer.

Entities: Chemical Species

Mesh：

Substances：
Water

Year: 1967 PMID： 6033591 PMCID： PMC2225706 DOI： 10.1085/jgp.50.5.1377

Source DB: PubMed Journal: J Gen Physiol ISSN： 0022-1295 Impact factor: 4.086

7 in total

42 in total

The effect of the unstirred layer on human red cell water permeability.

1. RATE OF HYDRATION OF CARBON DIOXIDE AND DEHYDRATION OF CARBONIC ACID AT 25 DEGREES.

2. MECHANICAL PROPERTIES OF THE RED CELL MEMBRANE. I. MEMBRANE STIFFNESS AND INTRACELLULAR PRESSURE.

3. Thermodynamic analysis of the permeability of biological membranes to non-electrolytes.

4. Development of turbulence in flowing blood.

5. Entrance of water into human red cells under an osmotic pressure gradient.

6. OSMOTIC PROPERTIES OF HUMAN RED CELLS.

7. The rate of exchange of tritiated water across the human red cell membrane.

1. Shift of pH-absorption curves.

2. Reflection coefficients of permeant molecules in human red cell suspensions.

3. Turbulent flow of red cells in dilute suspensions. Effect on kinetics of O2 uptake.

4. The role of water diffusion in the action of vasopressin.

5. Water permeability of phospholipid vesicles.

6. Light scattering vs. microscopy for measuring average cell size and shape.

7. Accumulation of a slowly dissociable peptide hormone binding component by isolated target cells.

8. The effect of diffusion and convection on the rate of transfer of solutes across an interface.

9. Reconstitution of spectrin-deficient, spherocytic mouse erythrocyte membranes.

10. The rate of osmotic influx of water by flexible and inflexible erythrocytes.