Fundamentals of Receptor, Enzyme, and Transport Kinetics (1993). (2017)
- Record Type:
- Book
- Title:
- Fundamentals of Receptor, Enzyme, and Transport Kinetics (1993). (2017)
- Main Title:
- Fundamentals of Receptor, Enzyme, and Transport Kinetics (1993).
- Authors:
- Matthews, John C
- Contents:
- Cover; Title Page; Copyright Page; Preface; The Author; Acknowledgment; Table of Contents; Part I: Receptors; Chapter 1 Introduction to Receptors; I. Receptor-Ligand Complexes; II. Affinity, Intrinsic Activity, and Effect; III. Receptor Stimulation and Physiological Effect; IV. Fundamentals of Receptor-Ligand Interaction; V. Antagonists and Activators; Chapter 2 Simple Receptor-Ligand Interactions; I. Ligand Binding; II. RL Lifetimes and Reaction Rate Constants; III. Chemical Equilibrium; IV. Equilibrium and Affinity Constants; V. Receptor-Ligand Interaction Energies. VI. The Langmuir Binding IsothermVII. The Practical Meaning of Affinity; VIII. Fractional Receptor Occupancy; IX. Linear Transformations; A. Double-Reciprocal or Lineweaver-Burk Equation; B. The Rosenthal-Scatchard Equation; C. The Eadie-Hofstee Equation; D. The Woolf Equation; X. Weighting Errors; Chapter 3 Overview of Techniques for Direct Measurement of Receptor-Ligand Interactions; I. Receptor Preparations; II. Choosing Receptor Ligands and Radioisotopes; III. Quantification of Radioactivity; IV. Equilibrium and Dynamic Binding Measurements; V. Fast and Slow Receptor-Ligand Interactions. VI. General Considerations in Receptor Binding MethodsA. Relationship between Receptor and Ligand Concentrations; B. Nonspecific Binding; C. Affinity; D. Choice of Isotope for Radiolabeling; E. Weighting Errors Inherent in the Use of Radioisotopes; VII. Calorimetry; Chapter 4 Receptor-Ligand Interactions That GenerateCover; Title Page; Copyright Page; Preface; The Author; Acknowledgment; Table of Contents; Part I: Receptors; Chapter 1 Introduction to Receptors; I. Receptor-Ligand Complexes; II. Affinity, Intrinsic Activity, and Effect; III. Receptor Stimulation and Physiological Effect; IV. Fundamentals of Receptor-Ligand Interaction; V. Antagonists and Activators; Chapter 2 Simple Receptor-Ligand Interactions; I. Ligand Binding; II. RL Lifetimes and Reaction Rate Constants; III. Chemical Equilibrium; IV. Equilibrium and Affinity Constants; V. Receptor-Ligand Interaction Energies. VI. The Langmuir Binding IsothermVII. The Practical Meaning of Affinity; VIII. Fractional Receptor Occupancy; IX. Linear Transformations; A. Double-Reciprocal or Lineweaver-Burk Equation; B. The Rosenthal-Scatchard Equation; C. The Eadie-Hofstee Equation; D. The Woolf Equation; X. Weighting Errors; Chapter 3 Overview of Techniques for Direct Measurement of Receptor-Ligand Interactions; I. Receptor Preparations; II. Choosing Receptor Ligands and Radioisotopes; III. Quantification of Radioactivity; IV. Equilibrium and Dynamic Binding Measurements; V. Fast and Slow Receptor-Ligand Interactions. VI. General Considerations in Receptor Binding MethodsA. Relationship between Receptor and Ligand Concentrations; B. Nonspecific Binding; C. Affinity; D. Choice of Isotope for Radiolabeling; E. Weighting Errors Inherent in the Use of Radioisotopes; VII. Calorimetry; Chapter 4 Receptor-Ligand Interactions That Generate Proportional Physiological Effects; I. Relationship between Ligand Binding and Effect; II. The Value pL[sub(2)]; III. pH Equations and Receptor-Ligand Interactions; IV. Relative Intrinsic Activity. Chapter 5 Overview of Mechanisms for Coupling of Receptor-Agonist Interactions with Physiological EffectsI. Introduction; II. Ion Channel-Linked Signal Transduction; III. Cyclic Nucleotide-Linked Signal Transduction; A. Stimulatory Receptors; B. Inhibitory Receptors; IV. Phosphatidyl Inositol-Linked Signal Transduction; V. Steroid Receptors; Chapter 6 Overview of Techniques for Measuring Receptor-Agonist Interactions Through Their Physiological Effects; I. Introduction; II. Effects on Whole Animals; III. Isolated Organs and Tissues; IV. Tissue Slices, Cell Cultures, and Membrane Vesicles. V. Receptor-Effector Systems at the Molecular LevelChapter 7 Receptor-Ligand Interactions that are Disproportionate with Their Physiological Effects; I. Introduction; II. Spare Receptors; III. Homotropic Cooperativity and the Hill Equation; IV. Discrepancies in and Alternatives for the Hill Equation; V. Physiological Advantages of Homotropic Cooperativity; A. Hemoglobin; B. Calmodulin; VI. Heterotropic Cooperativity; VII. Receptor Desensitization; Chapter 8 Antagonism; I. Introduction; II. Types of Antagonism; A. Chemical Antagonism; B . Physical Antagonism; C. Functional Antagonism. … (more)
- Publisher Details:
- Boca Raton, FL : CRC Press
- Publication Date:
- 2017
- Extent:
- 1 online resource
- Subjects:
- 615.7
Physiology
BIOSCIENCEnetBASE
SCI-TECHnetBASE
BIOMEDICALSCIENCEnetBASE
LIFESCIENCEnetBASE
STMnetBASE
Biological transport
Cell receptors
Enzyme kinetics
Ligand binding (Biochemistry)
Pharmacokinetics
Electronic books - Languages:
- English
- ISBNs:
- 9780203713433
0203713435
9781351364584
1351364588
9781351364577
9781351364560
1351364561 - Related ISBNs:
- 135136457X
1138105511
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- British Library HMNTS - ELD.DS.264429
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