Current Topics in Membranes and Transport
Published on 1. September 1983
1042 pages
978-0-08-058490-4 (ISBN)
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Current Topics in Membranes and Transport
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Felix Bronner | A. Kleinzeller
Current Topics in Membranes and Transport: Structure, Mechanism and Function of the Na/K Pump v. 19
Book
01/1983
Academic Press
€69.33
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Content
- Front Cover
- Structure, Mechanism, and Function of the Na/K Pump, Volume 19
- Copyright Page
- Contents
- List of Contributors
- Preface
- Acknowledgments
- Yale Membrane Transport Processes Volumes
- Contents of Previous Volumes
- PART I: THERMODYNAMIC ASPECTS OF MEMBRANE TRANSPORT
- Chapter 1. What Is a Coupled Vectorial Process?
- Chapter 2. The Membrane Equilibrium with Chemical Reactions
- PART II: STRUCTURAL ANALYSIS OF Na,K-ATPase
- Chapter 3. Structural Aspects of Na,K-ATPase
- Chapter 4. Detergent Solubilization of Na,K-ATPase
- Chapter 5. Methods for the Cleavage of the Large Subunit of Na,K-ATPase and the Resolution of the Peptides Produced
- Chapter 6. Selective Purification of Na,K-ATPase and Ca2+, Mg2+-ATPase from Eel Electroplax
- Chapter 7. High-Performance Gel Chromatography of Horse Kidney Na,K-ATPase
- Chapter 8. Native Membranes from Dog Kidney Outer Medulla, Enriched in Na,K-ATPase, and Vesicular in Nature
- Chapter 9. Ultrastructure of Na,K-ATPase in Plasma Membranes Vesicles
- Chapter 10. Electron Microscope Analysis of Two-Dimensional Crystals of Membrane-Bound Na,K-ATPase
- Chapter 11. Organization of the Transmembrane Segments of Na,K-ATPase. Labeling of Lipid Embedded and Surface Domains of the a-Subunit and Its Tryptic Fragments with [125l] lodonaphthylazide, [32P]ATP, and Photolabeled Ouabain
- Chapter 12. Structural Studies on Lamb Kidney Na,K-ATPase
- Chapter 13. Two Slightly Different a-Subunit Components of Kidney Na,K-ATPase Induced by Heat Treatment
- Chapter 14. Radiation Inactivation Analysis of Na,K-ATPase
- Chapter 15. Stoichiometrical Binding of Ligands to Less than 160 Kilodaltons of Na,K-ATPase
- Chapter 16. The Active Site Structure of Na,K-ATPase: Location of a Specific Fluorescein Isothiocyanate-Reactive Site
- Chapter 17. Subunit Distribution of Sulfhydryl Groups and Disulfide Bonds in Rena Na,K-ATPase
- Chapter 18. Lipid Regions of Na,K-ATPase Examined with Fluorescent Lipid Probes
- Chapter 19. Role of Cholesterol and Other Neutral Lipids in Na,K-ATPase
- PART III: LIGAND INTERACTIONS: CARDIAC GLYCOSIDES AND IONS
- Chapter 20. Cardiotonic Steroid Binding to Na,K-ATPase
- Chapter 21. Binding of Monovalent Cations to the Na,K-ATPase
- Chapter 22. Half-of-the-Sites Reactivity of Na,K-ATPase Examined by the Accessibility of Vanadate and ATP into Enzyme-Ouabain Complexes
- Chapter 23. Binding of Rb+ and ADP to a Potassium-Like Form of Na,K-ATPase
- Chapter 24. Side-Dependent Ion Effects on the Rate of Ouabain Binding to Reconstituted Human Red Ceii Ghosts
- Chapter 25. Intracellular Sodium Enhancement of Ouabain Binding to Na,K-ATPase and the Development of Glycoside Actions
- Chapter 26. Lithium-Catalyzed Ouabain Binding to Canine Kidney Na,K-ATPase
- Chapter 27. Ouabain Binding and Na,K-ATPase in Resealed Human Red Cell Ghosts
- Chapter 28. Stereoelectronic Interaction between Cardiotonic Steroids and Na,K-ATPase: Molecular Mechanism of Digitalis Action
- Chapter 29. Use of Prophet and MMS-X Computer Graphics in the Study of the Cardiac Steroid Receptor Site of Na,K-ATPase
- Chapter 30. Photoaffinity Labeling of the Ouabain Binding Site of Na,K-ATPase
- Chapter 31. New Ouabain Derivatives to Covalently Label the Digitalis Binding Site
- Chapter 32. Ouabain Sensitivity: Diversity and Disparities
- PART IV: LIGAND INTERACTIONS: NUCLEOTIDES, VANADATE, AND PHOSPHORYLATION
- Chapter 33. Ligand Interactions with the Substrate Site of Na,K-ATPase: Nucleotides, Vanadate, and Phosphotylation
- Chapter 34. Conformational Changes of Na,K-ATPase Necessary for Transport
- Chapter 35. On the Mechanism behind the Ability of Na,K-ATPase to Discriminate between Na+ and K+
- Chapter 36. Characteristics of the Electric Eel Na,K-ATPase Phosphoprotein
- Chapter 37. Sulfhydryl Groups of Na,K-ATPase: Effects of N-Ethylmaleimide on Phosphorylation from ATP in the Presence of Na+ + Mg2+
- Chapter 38. Alternative Pathways of Phosphorylation of Na,K-ATPase Regulated by Na+ Ions on Both Sides of the Plasma Membrane
- Chapter 39. Structurally Different Nucleotide Binding Sites in Na,K-ATPase
- Chapter 40. Study of Na,K-ATPase with ATP Analogs
- Chapter 41. Affinity Labeling Studies of the ATP Binding Site of Canine Kidney Na,K-ATPase
- Chapter 42. 31P[18Ol NMR Kinetic Analysis of 18O Exchange Reaction between Pi and H2O Catalyzed by Na,K-ATPase
- PART V: CONFORMATIONAL CHANGES, STRUCTURE/FUNCTION, AND ACTIVE SITE PROBES
- Chapter 43. Principal Conformations of the a-Subunit and Ion Translocation
- Chapter 44. Magnesium-Induced Conformational Changes in Na,K-ATPase
- Chapter 45. Rubidium Movements in Vesicles Reconstituted with Na,K-ATPase, Measured in the Absence of ATP and Pi, in the Presence of Either Ligand, and in the Presence of Both Ligands: Role of the "Occluded State" in Allowing for the Control of the Direction of Ion Movements
- Chapter 46. Eosin: A Fluorescent Probe of ATP Binding to Na,K-ATPase
- Chapter 47. Interaction of Divalent Cations with Fluorescein-Labeled Na,K-ATPase
- Chapter 48. Cation Activation of Na,K-ATPase after Treatment with Thimerosal
- Chapter 49. Alteration of Conformational Equilibria in Na,K-ATPase by Glutaraldehyde Treatment
- Chapter 50. Conformational Transition between ADP-Sensitive Phosphoenzyme and Potassium- Sensitive Phosphoenzyme
- Chapter 51. Relation between Red Cell Membrane Na,K-ATPase and Band 3
- PART VI: REACTION MECHANISM AND KINETIC ANALYSIS
- Chapter 52. Kinetic Analyses and the Reaction Mechanism of the Na,K-ATPase
- Chapter 53. Evidence for Parallel Pathways of Phosphoenzyme Formation in the Mechanism of ATP Hydrolysis by Electrophorous Na,K-ATPase
- Chapter 54. Evaluation of the Reaction Mechanism of the Sodium Pump by Steady-State Kinetics
- Chapter 55. Kinetic Evidence in Favor of a Consecutive Model of the Sodium Pump
- Chapter 56. Kinetic Models of Na-Dependent Phosphorylation of Na,K-ATPase from Rat Brain
- Chapter 57. Reinvestigation of the Sequence of Sensitivity of Phosphoenzyme of Na,K-ATPase to ADP and K+ during the Presteady State of the Phosphorylation by ATP
- Chapter 58. Interaction of Na+, K+, and ATP with Na,K-ATPase
- Chapter 59. Sodium Ion Discharge from Pig Kidney Na,K-ATPase
- Chapter 60. ADP Sensitivity of the Native and Oligomycin-Treated Na,K-ATPase
- Chapter 61. Three (at Least) Consecutive Phosphointermediates of Na-ATPase
- Chapter 62. Aspects of the Presteady State Hydrolysis of ATP by Na,K-ATPase
- Chapter 63. Identity of the Na Activation Sites in ATPase wlth the K Activation Sites in p-Nitrophenylphosphatase
- Chapter 64. On the Existence of Two Distinct Hydrolysis Cycles for Na,K-ATPase with Only One Active Substrate Site
- Chapter 65. Kinetic Analysis of the Effects of Na+ and K+ on Na,K-ATPase
- Chapter 66. Divalent Cations and Conformational States of Na,K-ATPase
- PART VII: ION TRANSLOCATION AND REACTION MECHANISM
- Chapter 67. Na,K-ATPase: Reaction Mechanisms and lon Translocating Steps
- Chapter 68. Existence and Role of Occluded-Ion Forms of Na,K-ATPase
- Chapter 69. Na and K Fluxes Medlated by ATP-Free and ATP-Activated Na,K-ATPase in Liposomes
- Chapter 70. Sidedness of Cations and ATP Interactions with the Sodium Pump
- Chapter 71. Sidedness of Sodium lnteractions with the Sodlum Pump in the Absence of K+
- Chapter 72. Magnesium Dependence of Sodium Pump Mediated Sodium Transport in Intact Human Red Ceils
- Chapter 73. K+-Independent Active Transport of Na+ by Na,K-ATPase
- Chapter 74. ADP-ATP Exchange in Internally Dialyzed Squid Giant Axons
- Chapter 75. Sodium Pump-Catalyzed ATP-ADP Exchange In Red Blood Cells: The Effects of lntracellular and Extracellular Na and K Ions
- Chapter 76. Ouabain-Sensitive ATP-ADP Exchange and Na-ATPase of Resealed Red Cell Ghosts
- Chapter 77. Effect of Internal Adenine Nucieotides on Sodium Pump-Catalyzed Na-Na and Na-K Exchanges
- Chapter 78. Na/K Pump in Inside-out Vesicles Utilizing ATP Synthesized at the Membrane
- Chapter 79. Anion-Coupled Na Efflux Mediated by the NalK Pump in Human Red Blood Cells
- Chapter 80. Effect of Trypdn Digestion on the Kinetlc Behavior of the NalK Pump in Intact Erythrocytes
- Chapter 81. Sodium Movement and ATP Hydrolysis in Basolateral Plasma Membrane Vesicles from Proximal Tubular Cells of Rat Kidney
- Chapter 82. Stoichiometry of the Electrogenic Na Pump in Barnacle Muscle: Simultaneous Measurement of Na Efflux and Membrane Current
- PART VIII: BIOSYNTHESIS, MULTIPLE FORMS, AND IMMUNOLOGY
- Chapter 83. Regulation of Na,K-ATPase by Its Biosynthesis and Turnover
- Chapter 84. Biosynthesis of Na,K-ATPase in MDCK Cells
- Chapter 85. Possible Functional Differences between the Two Na,K-ATPases of the Brain
- Chapter 86. Antigenic Properties of the a-,ß-, and ?-Subunits of Na,K-ATPase
- Chapter 87. Antibodies to Na,K-ATPese: Characterization and Use in Cell-Free Synthesis Studies
- Chapter 88. lmmunoreactivity of the a- and a( +)-Subunits of Na,K-ATPase in Different Organs and Species
- Chapter 89. Role of Na+ and Ca2+ Fluxes in Terminal Differentiation of Murine Erythroleukemia Cells
- Chapter 90. Na/K Pumps and Passive K+ Transport in Large and Small Reticulocytes of Anemic Low- and High-Potassium Sheep
- Chapter 91. Enhancement of Biosynthesis of Na,K-ATPase in the Toad Urinary Bladder by Aldosterone But Not T3
- Chapter 92. Na,K-ATPase Activity in Rat Nephron Segments: Effect of Low-Potassium Diet and Thyroid Deficiency
- Chapter 93. Axonal Transport of Na,K-ATPase in Optic Nerve of Hamster
- PART IX: Na,K-ATPase AND POSITIVE INOTROPY
- ENDOGENOUS GLYCOSIDES
- Chapter 94. Positive lnotropic Action of Digitalis and Endogenous Factors: Na,K-ATPase and Posltive Inotropy
- "Endogenous Glycosides"
- Chapter 95. Endogenous Glycoside-Like Substances
- Chapter 96. Monovalent Cation Transport and Mechanisms of Digltalis-Induced Inotropy
- Chapter 97. Effects of Sodium Pump Inhibition on Contraction in Sheep Cardiac Purkinje Fibers
- Chapter 98. Quantitative Evaluation of [3H]Ouabain Binding to Contracting Heart Muscle, Positive Inotropy, Na,K-ATPase Inhibition, and 86Rb+ Uptake in Several Species
- Chapter 99. Contractile Force Effects of Low Concentrations of Ouabain in Isolated Guinea Pig, Rabbit, Cat, and Rat Atria and Ventricles
- Chapter 100. Difference of Digitalis Binding to Na,K-ATPase and Sarcolemma Membranes
- Chapter 101. Pharmacological and Biochemical Studies on the Digitalis Receptor: A Two-Site Hypothesis for Positive lnotropic Action
- Chapter 102. Hypothesis for the Mechanism of Stimulation of the NdK Pump by Cardiac Glycosides-Role of Endogenous Digitalis-Like Factor
- Chapter 103. lmmunochemical Approaches to the Isolation of an Endogenous Digoxin-like Factor
- Chapter 104. Demonstration of a Humoral Na/K Pump lnhlbitor in Experimental Low-Renin Hypertension
- Chapter 105. Absence of Ouabain-Like Activity of the Na,K-ATPase Inhibitor in Guinea Pig Brain Extract
- Chapter 106. Brain Na,K-ATPase: Regulation by Norepinephrine and an Endogenous Inhibitor
- Chapter 107. Inhibitory and Stimulatory Effects of Vanadate on Sodium Pump of Cultured Heart Cells from Different Species
- Chapter 108. Endogenous Inhibitor of Na,K-ATPase: "Endodigin"
- PART X: PHYSIOLOGY AND PATHOPHYSIOLOGY OF THE Na/K PUMP
- Chapter 109. Disorders in Molecular Assemblies for Na Transport in Essential Hypertension
- Chapter 110. The Na-K Cotransport System in Essential Hypertension
- Chapter 111. Loss of Na,K-ATPase Activity during Cataract Formation in Lens
- Chapter 112. Na/K Pump: Effect of Obesity and Nutritional State
- Chapter 113. Decreased Na,K-ATPase Activity in Erythrocyte Membranes and Intact Erythrocytes from ObeseMan
- Chapter 114. Functionally Abnormal Na/K Pump in Erythrocytes from a Morbidly Obese Subject
- Chapter 115. Specific Insulin Binding to Purified Na,K-ATPase Associated with Rapid Activation of the Enzyme
- Chapter 116. A Mechanism for Cholinergic Stimulation of Sodium Pump in Rat Submandibular Gland
- Chapter 117. Evidence for an Aldosterone-Mediated, Na-Dependent Activation of Na,K-ATPase in the Cortical Collecting Tubule
- Chapter 118. Vanadate and Somatostatin Having Divergent Effects on Pancreatic Islet Na,K-ATPase
- Chapter 119. Phosphorylation of a Kidney Preparation of Na,K-ATPase by the Catalytic Subunit of CAMP-Dependent Protein Kinase
- Chapter 120. Modulation of Na,K-ATPase Activity in Rat Brain by Adenosine 3' ,5' -Monophosphate
- Chapter 121. Stimulation and Inhibition by Plasma of Ouabain-Sensitive Sodium Efflux in Human Red Blood Cells
- Chapter 122. Inhibition of the Na Pump by Cytoplasmic Calcium in Intact Red Cells
- Chapter 123. Involvement of Calmodulin in the Inhibition of Na,K-ATPase by Ouabain
- Index
