Titlebook: Chloride Channels and Carriers in Nerve, Muscle, and Glial Cells; Francisco J. Alvarez-Leefmans,John M. Russell Book 1990 Springer Science

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Methods for Measuring Chloride Transport across Nerve, Muscle, and Glial Cellsechanisms involved in regulation of intracellular Cl. is particularly important in excitable cells for four main reasons: (1) a. is a quantity needed to determine . ., the Cl. equilibrium potential. (2) Several transport mechanisms responsible for intracellular pH regulation are tightly coupled to C

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Chloride Transport in the Squid Giant Axonf several hundred small axons arising from separate ganglionic cells. Depending upon the squid species of origin, the diameter of the giant axon can vary from 200 μm to 1500 μm. The most commonly used species, . and ., have axons with diameters of 400–900 μM. The large size of the axon functionally

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Intracellular Cl? Regulation and Synaptic Inhibition in Vertebrate and Invertebrate Neurons These include regulation and maintenance of intracellular pH (Boron, 1983; Thomas, 1984; see Russell and Boron, this volume), regulation and maintenance of cell volume (Ballanyi and Grafe, 1988; see Chapter 2, this volume), and modulation of neuronal excitability through anion channels activated by

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n 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 passi

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Monographs, a Category of Graph Structuresto determine . ., the Cl. equilibrium potential. (2) Several transport mechanisms responsible for intracellular pH regulation are tightly coupled to Cl.. (3) Cl. is also involved in transport mechanisms implicated in cell volume regulation. (4) Knowledge of intracellular Cl. homeostasis is crucial for understanding synaptic inhibition.

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Methods for Measuring Chloride Transport across Nerve, Muscle, and Glial Cellsto determine . ., the Cl. equilibrium potential. (2) Several transport mechanisms responsible for intracellular pH regulation are tightly coupled to Cl.. (3) Cl. is also involved in transport mechanisms implicated in cell volume regulation. (4) Knowledge of intracellular Cl. homeostasis is crucial for understanding synaptic inhibition.