Electrophysiology
-15%
portes grátis
Electrophysiology
Basics, Modern Approaches and Applications
Schwarz, Wolfgang; Schwarz, Silvia; Rettinger, Juergen
Springer International Publishing AG
05/2018
162
Mole
Inglês
9783319807041
15 a 20 dias
454
Descrição não disponível.
Chapter 11 Introduction1.1 INTRODUCTORY OVERVIEW1.2 HISTORY OF ELECTROPHYSIOLOGY
Chapter 22 Basics: Theory2.1 ELECTRICAL CHARACTERISTICS OF BIOLOGICAL MEMBRANES 2.2 ION DISTRIBUTION AT BIOLOGICAL MEMBRANES 2.3 DONNAN DISTRIBUTION AND NERNST EQUATION 2.4 GOLDMAN-HODGKIN-KATZ EQUATION
Chapter 3 3. Basics: Methods 3.1 RECORDING ELECTRICAL SIGNALS FROM BODY SURFACE 3.2 THE EXAMPLE (ECG) 3.3 RECORDING ELECTRICAL SIGNALS FROM TISSUE 3.4 RECORDING ELECTRICAL SIGNALS FROM SINGLE CELLS 3.5 APPLICATION OF THE VOLTAGE-CLAMP TECHNIQUE 3.6 THE PATCH-CLAMP TECHNIQUE
Chapter 4 4 Automated Electrophysiology 4.1 AUTOMATED TWO-ELECTRODE VOLTAGE CLAMP 4.2 AUTOMATED PATCH CLAMP
Chapter 5 5 Ion-selective Channels 5.1 GENERAL CHARACTERISTICS OF ION CHANNELS 5.2 SPECIFIC ION CHANNELS
Chapter 6 6 Theory of Excitability 6.1 THE HODGKIN-HUXLEY DESCRIPTION OF EXCITATION 6.2 CONTINUOUS AND SALTATORY CONDUCTION OF ACTION POTENTIALS 6.3 GENERATION AND TRANSMISSION OF ACTION POTENTIALS 6.4 SUMMARY OF THE DIFFERENT TYPES OF POTENTIALS 6.5 ACTION POTENTIAL IN NON-NERVE CELLS
Chapter 7 7 Carrier-mediated Transport 7.1 GENERAL CHARACTERISTICS OF CARRIERS 7.2 CARRIERS ARE LIKE CHANNELS WITH ALTERNATING GATES
Chapter 8 8 Examples of Application of Electrophysiology 8.1 STRUCTURE-FUNCTION RELATIONSHIPS OF CARRIER PROTEINS 8.2 STRUCTURE-FUNCTION RELATIONSHIPS OF ION CHANNELS 8.3 VIRAL ION CHANNELS
Appendix A1. THE GRAPH THEORY A2. INFLUENCE OF EXTERNAL ELECTRICAL AND MAGNETIC FIELDS A2.1. MAGNETOSTATIC FIELDS A3. A LABORATORY COURSE:
Important Physical Units List of Symbols and Abbreviations Index
Chapter 22 Basics: Theory2.1 ELECTRICAL CHARACTERISTICS OF BIOLOGICAL MEMBRANES 2.2 ION DISTRIBUTION AT BIOLOGICAL MEMBRANES 2.3 DONNAN DISTRIBUTION AND NERNST EQUATION 2.4 GOLDMAN-HODGKIN-KATZ EQUATION
Chapter 3 3. Basics: Methods 3.1 RECORDING ELECTRICAL SIGNALS FROM BODY SURFACE 3.2 THE EXAMPLE (ECG) 3.3 RECORDING ELECTRICAL SIGNALS FROM TISSUE 3.4 RECORDING ELECTRICAL SIGNALS FROM SINGLE CELLS 3.5 APPLICATION OF THE VOLTAGE-CLAMP TECHNIQUE 3.6 THE PATCH-CLAMP TECHNIQUE
Chapter 4 4 Automated Electrophysiology 4.1 AUTOMATED TWO-ELECTRODE VOLTAGE CLAMP 4.2 AUTOMATED PATCH CLAMP
Chapter 5 5 Ion-selective Channels 5.1 GENERAL CHARACTERISTICS OF ION CHANNELS 5.2 SPECIFIC ION CHANNELS
Chapter 6 6 Theory of Excitability 6.1 THE HODGKIN-HUXLEY DESCRIPTION OF EXCITATION 6.2 CONTINUOUS AND SALTATORY CONDUCTION OF ACTION POTENTIALS 6.3 GENERATION AND TRANSMISSION OF ACTION POTENTIALS 6.4 SUMMARY OF THE DIFFERENT TYPES OF POTENTIALS 6.5 ACTION POTENTIAL IN NON-NERVE CELLS
Chapter 7 7 Carrier-mediated Transport 7.1 GENERAL CHARACTERISTICS OF CARRIERS 7.2 CARRIERS ARE LIKE CHANNELS WITH ALTERNATING GATES
Chapter 8 8 Examples of Application of Electrophysiology 8.1 STRUCTURE-FUNCTION RELATIONSHIPS OF CARRIER PROTEINS 8.2 STRUCTURE-FUNCTION RELATIONSHIPS OF ION CHANNELS 8.3 VIRAL ION CHANNELS
Appendix A1. THE GRAPH THEORY A2. INFLUENCE OF EXTERNAL ELECTRICAL AND MAGNETIC FIELDS A2.1. MAGNETOSTATIC FIELDS A3. A LABORATORY COURSE:
Important Physical Units List of Symbols and Abbreviations Index
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Voltage-Clamp;Patch-Clamp;Ion Channels;Carrier Proteins;Action Potential;Electro Smog;Goldman Equation;Electrocardiogram;Hodgkin-Huxley Description;Cellular Electrophysiology
Chapter 11 Introduction1.1 INTRODUCTORY OVERVIEW1.2 HISTORY OF ELECTROPHYSIOLOGY
Chapter 22 Basics: Theory2.1 ELECTRICAL CHARACTERISTICS OF BIOLOGICAL MEMBRANES 2.2 ION DISTRIBUTION AT BIOLOGICAL MEMBRANES 2.3 DONNAN DISTRIBUTION AND NERNST EQUATION 2.4 GOLDMAN-HODGKIN-KATZ EQUATION
Chapter 3 3. Basics: Methods 3.1 RECORDING ELECTRICAL SIGNALS FROM BODY SURFACE 3.2 THE EXAMPLE (ECG) 3.3 RECORDING ELECTRICAL SIGNALS FROM TISSUE 3.4 RECORDING ELECTRICAL SIGNALS FROM SINGLE CELLS 3.5 APPLICATION OF THE VOLTAGE-CLAMP TECHNIQUE 3.6 THE PATCH-CLAMP TECHNIQUE
Chapter 4 4 Automated Electrophysiology 4.1 AUTOMATED TWO-ELECTRODE VOLTAGE CLAMP 4.2 AUTOMATED PATCH CLAMP
Chapter 5 5 Ion-selective Channels 5.1 GENERAL CHARACTERISTICS OF ION CHANNELS 5.2 SPECIFIC ION CHANNELS
Chapter 6 6 Theory of Excitability 6.1 THE HODGKIN-HUXLEY DESCRIPTION OF EXCITATION 6.2 CONTINUOUS AND SALTATORY CONDUCTION OF ACTION POTENTIALS 6.3 GENERATION AND TRANSMISSION OF ACTION POTENTIALS 6.4 SUMMARY OF THE DIFFERENT TYPES OF POTENTIALS 6.5 ACTION POTENTIAL IN NON-NERVE CELLS
Chapter 7 7 Carrier-mediated Transport 7.1 GENERAL CHARACTERISTICS OF CARRIERS 7.2 CARRIERS ARE LIKE CHANNELS WITH ALTERNATING GATES
Chapter 8 8 Examples of Application of Electrophysiology 8.1 STRUCTURE-FUNCTION RELATIONSHIPS OF CARRIER PROTEINS 8.2 STRUCTURE-FUNCTION RELATIONSHIPS OF ION CHANNELS 8.3 VIRAL ION CHANNELS
Appendix A1. THE GRAPH THEORY A2. INFLUENCE OF EXTERNAL ELECTRICAL AND MAGNETIC FIELDS A2.1. MAGNETOSTATIC FIELDS A3. A LABORATORY COURSE:
Important Physical Units List of Symbols and Abbreviations Index
Chapter 22 Basics: Theory2.1 ELECTRICAL CHARACTERISTICS OF BIOLOGICAL MEMBRANES 2.2 ION DISTRIBUTION AT BIOLOGICAL MEMBRANES 2.3 DONNAN DISTRIBUTION AND NERNST EQUATION 2.4 GOLDMAN-HODGKIN-KATZ EQUATION
Chapter 3 3. Basics: Methods 3.1 RECORDING ELECTRICAL SIGNALS FROM BODY SURFACE 3.2 THE EXAMPLE (ECG) 3.3 RECORDING ELECTRICAL SIGNALS FROM TISSUE 3.4 RECORDING ELECTRICAL SIGNALS FROM SINGLE CELLS 3.5 APPLICATION OF THE VOLTAGE-CLAMP TECHNIQUE 3.6 THE PATCH-CLAMP TECHNIQUE
Chapter 4 4 Automated Electrophysiology 4.1 AUTOMATED TWO-ELECTRODE VOLTAGE CLAMP 4.2 AUTOMATED PATCH CLAMP
Chapter 5 5 Ion-selective Channels 5.1 GENERAL CHARACTERISTICS OF ION CHANNELS 5.2 SPECIFIC ION CHANNELS
Chapter 6 6 Theory of Excitability 6.1 THE HODGKIN-HUXLEY DESCRIPTION OF EXCITATION 6.2 CONTINUOUS AND SALTATORY CONDUCTION OF ACTION POTENTIALS 6.3 GENERATION AND TRANSMISSION OF ACTION POTENTIALS 6.4 SUMMARY OF THE DIFFERENT TYPES OF POTENTIALS 6.5 ACTION POTENTIAL IN NON-NERVE CELLS
Chapter 7 7 Carrier-mediated Transport 7.1 GENERAL CHARACTERISTICS OF CARRIERS 7.2 CARRIERS ARE LIKE CHANNELS WITH ALTERNATING GATES
Chapter 8 8 Examples of Application of Electrophysiology 8.1 STRUCTURE-FUNCTION RELATIONSHIPS OF CARRIER PROTEINS 8.2 STRUCTURE-FUNCTION RELATIONSHIPS OF ION CHANNELS 8.3 VIRAL ION CHANNELS
Appendix A1. THE GRAPH THEORY A2. INFLUENCE OF EXTERNAL ELECTRICAL AND MAGNETIC FIELDS A2.1. MAGNETOSTATIC FIELDS A3. A LABORATORY COURSE:
Important Physical Units List of Symbols and Abbreviations Index
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
