Chloride Channels And Carriers In Nerve, Muscle, And Glial Cells

Chloride Channels And Carriers In Nerve, Muscle, And Glial Cells

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Condition: SECONDHAND

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This is a secondhand book. The jacket image is a photograph of the exact copy we have in stock. This image shows the condition of this book. Further condition remarks are below.

Author: F. J. Alvarez-Leefmans And John M. Russel
Binding: Hardback
Published: Plenum Publishing Corporation, 1990

Condition:
Book: Good
Jacket: N/A
Pages: Tanning and foxing
Markings: Reading copy with markings

'''"Chloride Channels And Carriers In Nerve, Muscle, And Glial Cells" presents a comprehensive examination of the critical roles played by chloride channels and carriers within the nervous system and other vital tissues. This authoritative text details the molecular structures, functional properties, and physiological significance of these essential membrane proteins. It illustrates how these transporters regulate cellular excitability, volume, and pH in nerve, muscle, and glial cells. The work uncovers the complex interplay of these mechanisms, offering a foundational understanding for researchers and students in neurophysiology and cell biology.'''

Vendor: Secondhand Stock
SKU: 2025000006960-SECONDHAND
Categories: All Best Sellers - Individual titles Biology, Botany, Zoology General Science Medicine & Nursing Only One Copy Science & Mathematics Second-hand Books
Tags: Biology Hardback Medicine Science Secondhand September-2025
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Description

Author: F. J. Alvarez-Leefmans And John M. Russel
Binding: Hardback
Published: Plenum Publishing Corporation, 1990

Condition:
Book: Good
Jacket: N/A
Pages: Tanning and foxing
Markings: Reading copy with markings

'''"Chloride Channels And Carriers In Nerve, Muscle, And Glial Cells" presents a comprehensive examination of the critical roles played by chloride channels and carriers within the nervous system and other vital tissues. This authoritative text details the molecular structures, functional properties, and physiological significance of these essential membrane proteins. It illustrates how these transporters regulate cellular excitability, volume, and pH in nerve, muscle, and glial cells. The work uncovers the complex interplay of these mechanisms, offering a foundational understanding for researchers and students in neurophysiology and cell biology.'''