Add to ORKGThe cells of metazoan organisms exchange nutrients and wastes with an extremely thin layer of interstitial milieu, that would be quickly spoiled, were it not for a circulatory apparatus that constantly restores nutrients and takes away waste products by carrying them to and from large areas of epithelia (intestinal, renal, lung, gills, etc.), where they are finally exchanged with the external environment. Therefore metazoans ultimately depend on the ability of their epithelia to transport substances in a net amount towards the outside of the organism or in the opposite direction. In the second half of the Nineteen Century Emile Du Bois Raymond found that the frog skin maintains a spontaneous electrical potential across, and in 1904 G. Gale...
Metabolic support of Na+ transport by the rabbit CCD: Analysis of the use of equivalent current. The...
Epithelial ion transport regulates the environment of cells and modulates the environment inside the...
After identification of the Na,K-ATPase as active ion transporter that maintains the Na+ and K+ conc...
Theoretical analysis of transepithelial active Na transport is often based on equivalent electrical ...
Thanks to the homeostasis of the internal milieu, metazoan cells can enormously simplify their house...
The very existence of higher metazoans depends on the vectorial transport of substances across epith...
The exchange of substances between higher o ganisms and the environment takes place at the level of ...
All eukaryotic animal cells have high extracellular sodium and high intracellular potassium, a rever...
The barrier epithelia of amphibians such as frog skin and toad urinary bladder play an essential rol...
Many of the remarkable functions of the kidney originate from the ability of its epithelia to absorb...
The hallmark of epithelial cells is their functional polarization. It is those membrane proteins tha...
Some salt transporting epithelia can absorb inorganic ions from extremely low external concentration...
This review presents the theory of solute transport across frog skin, epithelial cells of the intest...
The vectorial transport of Na+ across epithelia is crucial for the maintenance of Na+ and water home...
In a paper on regional specialization in the lower Malpighian tubule of Rhodnius prolixus, Maddrell ...
Metabolic support of Na+ transport by the rabbit CCD: Analysis of the use of equivalent current. The...
Epithelial ion transport regulates the environment of cells and modulates the environment inside the...
After identification of the Na,K-ATPase as active ion transporter that maintains the Na+ and K+ conc...
Theoretical analysis of transepithelial active Na transport is often based on equivalent electrical ...
Thanks to the homeostasis of the internal milieu, metazoan cells can enormously simplify their house...
The very existence of higher metazoans depends on the vectorial transport of substances across epith...
The exchange of substances between higher o ganisms and the environment takes place at the level of ...
All eukaryotic animal cells have high extracellular sodium and high intracellular potassium, a rever...
The barrier epithelia of amphibians such as frog skin and toad urinary bladder play an essential rol...
Many of the remarkable functions of the kidney originate from the ability of its epithelia to absorb...
The hallmark of epithelial cells is their functional polarization. It is those membrane proteins tha...
Some salt transporting epithelia can absorb inorganic ions from extremely low external concentration...
This review presents the theory of solute transport across frog skin, epithelial cells of the intest...
The vectorial transport of Na+ across epithelia is crucial for the maintenance of Na+ and water home...
In a paper on regional specialization in the lower Malpighian tubule of Rhodnius prolixus, Maddrell ...
Metabolic support of Na+ transport by the rabbit CCD: Analysis of the use of equivalent current. The...
Epithelial ion transport regulates the environment of cells and modulates the environment inside the...
After identification of the Na,K-ATPase as active ion transporter that maintains the Na+ and K+ conc...