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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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發(fā)表于 2025-3-21 16:43:37 | 只看該作者 |倒序瀏覽 |閱讀模式
書目名稱Chloride Channels and Carriers in Nerve, Muscle, and Glial Cells
編輯Francisco J. Alvarez-Leefmans,John M. Russell
視頻videohttp://file.papertrans.cn/227/226109/226109.mp4
圖書封面Titlebook: Chloride Channels and Carriers in Nerve, Muscle, and Glial Cells;  Francisco J. Alvarez-Leefmans,John M. Russell Book 1990 Springer Science
描述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
出版日期Book 1990
關(guān)鍵詞attention; blood cell; cells; neurons; neuroscience; physiology; skeletal muscle
版次1
doihttps://doi.org/10.1007/978-1-4757-9685-8
isbn_softcover978-1-4757-9687-2
isbn_ebook978-1-4757-9685-8
copyrightSpringer Science+Business Media New York 1990
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發(fā)表于 2025-3-21 21:19:04 | 只看該作者
https://doi.org/10.1007/978-1-4757-9685-8attention; blood cell; cells; neurons; neuroscience; physiology; skeletal muscle
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978-1-4757-9687-2Springer Science+Business Media New York 1990
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Davide Ancona,Maura Cerioli,Elena Zuccaf 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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An Institution for Graph Transformation-filled pathways through specific proteins embedded in the membrane lipid bilayer (Hille, 1984). Such channels show selectivity for different ions according to size and charge. The rate of movement of ions through these channels is determined by the electrochemical driving force on the ion and the i
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https://doi.org/10.1007/978-3-031-15168-2eat importance for the proper functioning of the nervous system, e.g., the formation of myelin by oligodendrocytes and Schwann cells (for reviews see Morell and Norton, 1980), the clearance of K . from the extracellular space by astrocytes (Orkand, 1977, 1980), the guidance of neurons during develop
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