Red Cell Membrane Transport in Health and Disease de Ingolf Bernhardt

Red Cell Membrane Transport in Health and Disease

Ingolf Bernhardt

J. Clive Ellory

en Limba Engleză Paperback – 18 dec 2010

51 worldwide leading experts in the field of erythrocyte research contributed to this first book on transport processes in red blood cells. It explains the latest findings on the basis of well-established principles, in an accessibly structured and carefully organized compilation.

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Springer Berlin, Heidelberg – 18 dec 2010	1230^.35 lei 6-8 săpt.
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Springer Berlin, Heidelberg – 16 apr 2003	1238^.04 lei 6-8 săpt.

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Express

Paperback (1)

1230^.35 lei 6-8 săpt.

Springer Berlin, Heidelberg – 18 dec 2010

1230^.35 lei 6-8 săpt.

Hardback (1)

1238^.04 lei 6-8 săpt.

Springer Berlin, Heidelberg – 16 apr 2003

1238^.04 lei 6-8 săpt.

Descriere

The red cell has been a focus for scientific and medical investigation since the ear liest times. A higher erythrocyte sedimentation rate was associated with diseases (usually pyrexias) before the thermometer was invented. Furthermore, ever since the early observers Swammerdam and Leeuvenhoek saw discrete corpuscles in samples of blood using the first microscopes, there has been a significant scientific interest in the structure and function of red blood cells. The later discovery that red cells were not spherical, but biconcave discs introduced a scientific puzzle which is still not completely resolved today, and identified the need for a detailed knowledge of the plasma membrane composition and structure, and its interaction with the cytoskeleton. Important concepts like the lipid bilayer, together with its more recent refinement as asymmetric in phospholipid composition led to the identification of translocases involved in actively maintaining its composition. Understanding the mechanics of red cell deformation as these biconcave discs traverse capillaries was advanced by the pioneering work of Rand and Burton in the Sixties, and progressed by Evans, Skalak and others. Based on the bilayer couple hypothesis, the shape changes that are possible for a human red cell from echinocyte to stomatocyte were described by Sheetz and Singer in the Seventies in terms of alterations in the individual halves of the bilayer. Certain clinical condi tions are associated with obvious changes in red cell morphology.

Cuprins

1 Distribution and Movement of Membrane Lipids.- 2 Membrane Lipids and Proteins as a Basis of Red Cell Shape and its Alterations.- 3 Human Red Cell Shape and the Mechanical Characteristics of the Membrane.- 4 Passive Membrane Permeability for Ions and the Membrane Potential.- 5 Na+/K+ Pump.- 6 Ion Channels.- 7 The Swelling-Sensitive Osmolyte Channel.- 8 Na+-K+-2Cl- Cotransport.- 9 K+-Cl- Cotransport in Vertebrate Red Cells.- 10 The Band 3 Protein: Anion Exchanger and Anion-Proton Cotransporter.- 11 Band 3 Mediated Transport.- 12 Amino Acid Transport.- 13 Equilibrative Nucleoside Transport Proteins.- 14 Glucose Transport.- 15 Calcium Homeostasis in Normal and Abnormal Human Red Cells.- 16 Magnesium Transport.- 17 Trace Metal Transport.- 18 Monocarboxylate and other Organic Anion Transport.- 19 Water Permeability.- 20 Gas Transport.- 21 ‘The Hereditary Stomatocytosis and Allied Conditions’: Inherited Disorders Na+ and K+ Transport.- 22 Metabolic Disorders.- 23 Sickle Cell Disease.- 24 The Membrane Physiology of the ‘Malaria-Infected’ Red Cell.- 25 Hypertension.- 26 Disorders of Band 3.- 27 Amino Acid Transport in Disease.- 28 Transgenic Models of Red Cell Disorders.- 29 Red Cell Ageing.- 30 Active and Passive Monovalent Ion Transport Association with Membrane Antigens in Sheep Red Cells: a Molecular Riddle.- 31 Comparative Physiology of Red Cell Membrane Transport.

Recenzii

From the reviews:
"Membrane transport is a multi-faceted topic that can be looked at from various angles: biochemical, biophysical, cell biological. ‘Red Cell Membrane Transport in Health and Disease’ features contributions … from all of these areas, rendering a rather comprehensive treatise. … Bringing together chemically and physically oriented membrane researchers, the editors have assembled an impressive and varied body of knowledge that ought to be of interest in any laboratory involved in membrane transport research … ." (T. A. Lazar, Hämostaseologie, Issue 3, 2005)

Textul de pe ultima copertă

This book describes our current understanding of the transport of ions, amino acids, nucleosides, sugars, water and gases across the red blood cell membrane. It also outlines the necessary theoretical background to understand the dynamics of membrane constituents together with the mechanisms of transport pathways (pumps, channels, carriers/cotransporters, residual passive permeability). Separate chapters describe our present ideas about membrane and metabolic disorders as well as red blood cell diseases like malaria, sickle cell disease, and hypertension. The latest findings are explained on the basis of a historical review and well-established principles. The book and its chapters are thus structured in a manner that makes the material accessible to beginners in the field of red blood cell physiology and biophysics. Active researchers will also benefit from this carefully organized compilation.

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