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Methods in Enzymology 215. Platelets: Receptors, Adhesion, Secretion

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Jacek J Hawiger

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526 pages
19 hours of reading

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This volume contains a comprehensive collection of methods for the isolation of platelet membranes, subcellular organelles, the cytoskeleton, and for the assay and purification of platelet receptors. Key Features * Platelets are cellular elements with the highest density of receptors per membrane surface area involved in binding of adhesive molecules, clotting, enzymes, and vasoactive amines * Platelets are essential for the arrest of bleeding and for formation of intravascular thrombi contributing to heart attacks, strokes, and disseminated intravascular coagulation, and are involved in immune complex disease * Platelets are useful for studying the processes of cell adhesion, neurotransmitter uptake, stimulus-response coupling, including signal transduction and secretion

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Methods in Enzymology 215. Platelets: Receptors, Adhesion, Secretion, Jacek J Hawiger

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Released: 1992
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Title: Methods in Enzymology 215. Platelets: Receptors, Adhesion, Secretion
Language: English
Authors: Jacek J Hawiger
Publisher: Academic Press
Released: 1992
Format: Hardcover
Pages: 526
ISBN10: 0121821161
ISBN13: 9780121821166
Series
Tags: Non-Fiction, Health & Medicine, Science & Math, Medicine, Natural sciences, Biology, Chemistry
Description: This volume contains a comprehensive collection of methods for the isolation of platelet membranes, subcellular organelles, the cytoskeleton, and for the assay and purification of platelet receptors. Key Features * Platelets are cellular elements with the highest density of receptors per membrane surface area involved in binding of adhesive molecules, clotting, enzymes, and vasoactive amines * Platelets are essential for the arrest of bleeding and for formation of intravascular thrombi contributing to heart attacks, strokes, and disseminated intravascular coagulation, and are involved in immune complex disease * Platelets are useful for studying the processes of cell adhesion, neurotransmitter uptake, stimulus-response coupling, including signal transduction and secretion