Chloride Channels and Carriers in Nerve, Muscle, and Glial Cells (e-bog) af -
Russell, John M. (redaktør)

Chloride Channels and Carriers in Nerve, Muscle, and Glial Cells e-bog

2190,77 DKK (inkl. moms 2738,46 DKK)
This is a book about how Cl- crosses the cell membranes of nerve, muscle, and glial cells. Not so very many years ago, a pamphlet rather than book might have resulted from such an endeavor! One might ask why Cl-, the most abundant biological anion, attracted so little attention from investigators. The main reason was that the prevailing paradigm for cellular ion homeostasis in the 1950s and 196...
E-bog 2190,77 DKK
Forfattere Russell, John M. (redaktør)
Forlag Springer
Udgivet 29 juni 2013
Genrer PHVN
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9781475796858
This is a book about how Cl- crosses the cell membranes of nerve, muscle, and glial cells. Not so very many years ago, a pamphlet rather than book might have resulted from such an endeavor! One might ask why Cl-, the most abundant biological anion, attracted so little attention from investigators. The main reason was that the prevailing paradigm for cellular ion homeostasis in the 1950s and 1960s assigned Cl- a ther- modynamically passive and unspecialized role. This view was particularly prominent among muscle and neuroscience investigators. In searching for reasons for such a negative (no pun intended) viewpoint, it seems to us that it stemmed from two key experimental observations. First, work on frog skeletal muscle showed that Cl- was passively distributed between the cytoplasm and the extracellular fluid. Second, work on Cl- transport in red blood cells confirmed that the Cl- transmembrane distribution was thermodynamically passive and, in addition, showed that Cl- crossed the mem- brane extremely rapidly. This latter finding [for a long time interpreted as being the result of a high passive chloride electrical permeability(? CI)] made it quite likely that Cl- would remain at thermodynamic equilibrium. These two observations were gener- alized and virtually all cells were thought to have a very high P Cl and a ther- modynamically passive Cl- transmembrane distribution. These concepts can still be found in some physiology and neuroscience textbooks.