Add to ORKGExposure of Amphiuma red blood cells to millimolar concentrations of N-ethylmaleimide (NEM) resulted in net K loss. In order to determine whether net K loss was conductive or was by electroneutral K/H exchange or KCl cotransport, studies were performed evaluating K flux in terms of the thermodynamic forces to which K flux by the above pathways should couple. The direction and magnitude of the NEM-induced net K flux did not correspond with the direction and magnitude of the forces relevant to K conductance or electroneutral KCl cotransport. Both the magnitude and direction of the NEM-activated K flux responded to the driving force for K/H exchange. We therefore conclude that NEM-induced K loss, like that by osmotically swollen Amphiuma red b...
After osmotic perturbation, the red blood cells of Amphiuma exhibited a volume-regulatory response t...
In Amphiuma red blood cells, the Na/H exchanger has been shown to play a central role in the regulat...
In Amphiuma red blood cells, the Na/H exchanger has been shown to play a central role in the regulat...
Exposure of Amphiuma red blood cells to millimolar concentrations of N-ethylmaleimide (NEM) resulted...
Exposure of Amphiuma red blood cells to millimolar concentrations of N-ethylmaleimide (NEM) resulted...
In response to osmotic perturbation, the Amphiuma red blood cell regulates volume back to "normal" l...
In response to osmotic perturbation, the Amphiuma red blood cell regulates volume back to "normal" l...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
The effect of the sulphhydryl reagent N-ethylmaleimide on the K+ and Cl~ transport pathways of the l...
We studied the regulation of cell volume and cation content in erythrocytes stored at 4 degrees C un...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
In Amphiuma red blood cells, the Na/H exchanger has been shown to play a central role in the regulat...
After osmotic perturbation, the red blood cells of Amphiuma exhibited a volume-regulatory response t...
In Amphiuma red blood cells, the Na/H exchanger has been shown to play a central role in the regulat...
In Amphiuma red blood cells, the Na/H exchanger has been shown to play a central role in the regulat...
Exposure of Amphiuma red blood cells to millimolar concentrations of N-ethylmaleimide (NEM) resulted...
Exposure of Amphiuma red blood cells to millimolar concentrations of N-ethylmaleimide (NEM) resulted...
In response to osmotic perturbation, the Amphiuma red blood cell regulates volume back to "normal" l...
In response to osmotic perturbation, the Amphiuma red blood cell regulates volume back to "normal" l...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
The effect of the sulphhydryl reagent N-ethylmaleimide on the K+ and Cl~ transport pathways of the l...
We studied the regulation of cell volume and cation content in erythrocytes stored at 4 degrees C un...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
Swelling-Induced human erythrocyte K-Cl cotransport is membrane potential independent and capable of...
In Amphiuma red blood cells, the Na/H exchanger has been shown to play a central role in the regulat...
After osmotic perturbation, the red blood cells of Amphiuma exhibited a volume-regulatory response t...
In Amphiuma red blood cells, the Na/H exchanger has been shown to play a central role in the regulat...
In Amphiuma red blood cells, the Na/H exchanger has been shown to play a central role in the regulat...