Nonsolvent Water in Human Erythrocytes

Nonsolvent Water in Human Erythrocytes

From the ability of a concentrated suspension of human erythrocytes to regulate the pH of unbuffered, anisotonic, external media it is possible to calculate the fractional cell volume in which chloride is dissolved. The difference between this volume and the total cell water gives the nonsolvent water (for chloride) of the cell. Nonsolvent water is less than 3 % of the isotonic cell volume. The...

Nonsolvent Water in Human Erythrocytes

From the ability of a concentrated suspension of human erythrocytes to regulate the pH of unbuffered, anisotonic, external media it is possible to calculate the fractional cell volume in which chloride is dissolved. The difference between this volume and the total cell water gives the nonsolvent water (for chloride) of the cell. Nonsolvent water is less than 3% of the isotonic cell volume. The ...

Nonsolvent Water in Human Erythrocytes and Hemoglobin Solutions

Distribution ratios of water-soluble nonelectrolytes have been measured for two systems, human red bood cells/isotonic saline and hemoglobin solutions/water. The results show that for these solutes there is a significant amount of nonsolvent water associated with Hb. However, the amount of this nonsolvent water depends markedly on the temperature, as well as on the size, steric configuration, a...

Diffusional water permeability of human erythrocytes and their ghosts

The diffusional water permeability of human red cells and ghosts was determined by measuring the rate of tracer efflux by means of an improved version of the continuous flow tube method, having a time resolution of 2-3 ms. At 25 degrees C, the permeability was 2.4 x 10(3) and 2.9 x 10(3) cm s-1 for red cells and ghosts, respectively. Permeability was affected by neither a change in pH from 5.5 ...

Adenosine Metabolism in Human Erythrocytes