Includes bibliographies and index.
|Other titles||Erythrocyte membranes three.|
|Statement||editors, Walter C. Kruckeberg ... [et al.].|
|Series||Progress in clinical and biological research ;, v. 159|
|Contributions||Kruckeberg, Walter C.|
|LC Classifications||QP96 .R28 1983|
|The Physical Object|
|Pagination||xi, 327 p. :|
|Number of Pages||327|
|LC Control Number||84007851|
As a membrane transporter, AE1 mediates CI − /HCO − 3 exchange, thus enhancing the blood capacity for carrying CO 2 and for acid‐base homeostasis. By interacting with lipids and proteins, the multifunctional AEl tethers the membrane cytoskeleton multiprotein complex to the membrane and confers upon erythrocytes both mechanical and Cited by: 8. Red Blood Cell Membranes: Structure: Function: Clinical Implications (Hematology) 1st Edition by Peter Agre (Editor) out of 5 stars 1 rating. ISBN ISBN Why is ISBN important? ISBN. This bar-code number lets you verify that you're getting exactly the right version or edition of a book. The digit and 10 5/5(1). This book is devoted to the red blood cell membrane, its structure and function, and abnormalities in disease states. It presents a well-documented and well-illustrated comprehensive picture of 4/5(1). Hexosamine recovery after hydrolysis of erythrocyte membranes for varying times in 3 N HCl at ’. Glucosamine and galactosamine were determined chromatographically (15). in both M Tris hydrochloride and phosphate buffer at a pH of NH&rminal Amino Acids--The cyanate method of .
The topics discussed in the book include epithelial membranes and vitamin A, the erythrocyte, the platelet, and lymphoid cells. The carbohydrate components of tumor cell periphery, the composition and structure of excitable nerve membrane, and the role of membranes in . Natural erythrocyte membranes and leukocyte membranes have been also used to shield the nanoparticles from uptake [65,66]. In a recent example, UCNPs with incorporated photosensitizers were encapsulated in erythrocyte membrane. Erythrocyte membrane enhanced the system biocompatibility and shielded the UCNPs from RES. Cell membrane. The cell membrane of erythrocytes is a lipid bilayer that contains two types of membrane proteins: integral and peripheral. Integral membrane proteins are more numerous, stretching through the entire thickness of the cell membrane. They bind hemoglobin and serve as anchor points for the cytoskeletal network of RBCs. The erythrocyte membrane skeleton composed of spectrin, actin, and several other proteins is essential for the maintenance of the erythrocyte shape, reversible deformability, and membrane.
The erythrocyte, commonly known as a red blood cell (or RBC), is by far the most common formed element: A single drop of blood contains millions of erythrocytes and just thousands of ically, males have about million erythrocytes per microliter (µL) of blood, and females have approximately million per fact, erythrocytes are estimated to make up about . Erythrocyte membrane n-3 PUFAs are inversely associated with the presence and progression of NAFLD in Chinese adults. NCT Previous studies have shown that high-dose supplementation with n-3 polyunsaturated fatty acids (PUFAs) may benefit patients with . Band 3, a transmembrane protein that provides the anion channel of the erythrocyte plasma membrane, crosses the membrane more than once and has a large amino terminal segment exposes on the cytoplasmic side of the membrane. The biosynthesis of band 3 and the process of its incorporation into membranes were studied in vivo in erythroid spleen cells of anemic mice and in vitro in protein . In article number , Maikel C. Rheinstädter and co‐workers prepare hybrid red blood cell liposomes with tunable membrane properties (e.g. morphology, charge, mechanical properties) by modifying red blood cell membranes with synthetic lipids of different encapsulating small molecules, the perfect carriers for targeted drug delivery are developed, which .