Patch clamping [[electronic resource] ] : an introductory guide to patch clamp electrophysiology / / Areles Molleman |
Autore | Molleman Areles |
Pubbl/distr/stampa | New York, : J. Wiley, c2003 |
Descrizione fisica | 1 online resource (187 p.) |
Disciplina |
571.64
572/.437 |
Soggetto topico | Patch-clamp techniques (Electrophysiology) |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-27051-9
9786610270514 0-470-85651-3 0-470-85652-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Patch Clamping; Contents; Preface; 1 Introduction; 1.1 Patch Clamping and its Context; 2 Basic Theoretical Principles; 2.1 Introduction to Membrane Biology; 2.1.1 The plasma membrane and its ionic environment; 2.1.2 Electrochemical gradients and the Nernst equation; 2.1.3 Maintenance of ion gradients and the membrane potential; 2.1.4 Ion channels; 2.2 Electrical Properties of the Cell Membrane; 2.2.1 Driving force and membrane resistance; 2.2.2 Membrane capacitance; 2.2.3 Consequences of membrane capacitance; 2.2.4 An electronic model of the plasma membrane
2.3 Recording Modes and their Equivalent Circuits2.3.1 The basics of equivalent circuits; 2.3.2 Intracellular recording; 2.3.3 Voltage clamp and current clamp; 2.3.4 Introduction to patch clamp configurations; 2.3.5 The equivalent circuit for the cell-attached patch configuration; 2.3.6 The equivalent circuit for the whole-cell configuration; 2.3.7 The equivalent circuit for the excised patch configurations; 3 Requirements; 3.1 The Platform; 3.1.1 Stability: vibrations and drift; 3.1.2 Where in the building should the set-up be placed?; 3.1.3 Anti-vibration tables; 3.2 Mechanics and Optics 3.2.1 The microscope3.2.2 Micromanipulators; 3.2.3 Pipette pressure; 3.2.4 Baths and superfusion systems; 3.3 Electrodes and Micropipettes; 3.3.1 Solid-liquid junction potentials and polarisation; 3.3.2 The bath electrode; 3.3.3 Micropipettes; 3.3.4 Liquid junction potentials; 3.4 Electronics; 3.4.1 External noise and Faraday cages; 3.4.2 Patch clamp amplifiers; 3.4.3 Noise prevention and signal conditioning; 3.4.4 Data acquisition and digitisation; 3.4.5 Computers and software; 4 The Practice of Patch Clamping; 4.1 Preparing the Experiment and Making a Seal; 4.1.1 Setting up 4.1.2 Bringing the pipette near the preparation4.1.3 Making the seal; 4.2 Whole-cell Modes; 4.2.1 Conventional whole-cell recording; 4.2.2 Perforated patch recording; 4.3 Single-channel Modes; 4.3.1 General notes; 4.3.2 Cell-attached patch; 4.3.3 Excised patches; 5 Whole-cell Protocols and Data Analysis; 5.1 Standard Cellular Parameters; 5.2 Voltage-activated Currents; 5.2.1 Introduction to pulse protocols; 5.2.2 Signal conditioning and positive/negative subtraction; 5.2.3 Space clamp artefacts; 5.2.4 Isolation of a homogeneous population of channels 5.2.5 Current-voltage relationships and reversal potential5.2.6 Determination of relative permeabilities; 5.2.7 Activation and inactivation studies; 5.3 Non-voltage-activated Currents; 5.3.1 Introduction to continuous recording; 5.3.2 Determination of reversal potential using voltage ramps; 6 Single-channel Protocols and Data Analysis; 6.1 General Single-channel Practice and Analysis; 6.1.1 Practical notes; 6.1.2 Amplitude analysis; 6.1.3 Event detection; 6.1.4 Dwell time analysis; 6.2 Continuous Recording of Single Channels; 6.2.1 Data acquisition; 6.2.2 Spontaneous activity 6.2.3 Receptor-induced activity |
Record Nr. | UNINA-9910142497103321 |
Molleman Areles
![]() |
||
New York, : J. Wiley, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Patch clamping [[electronic resource] ] : an introductory guide to patch clamp electrophysiology / / Areles Molleman |
Autore | Molleman Areles |
Pubbl/distr/stampa | New York, : J. Wiley, c2003 |
Descrizione fisica | 1 online resource (187 p.) |
Disciplina |
571.64
572/.437 |
Soggetto topico | Patch-clamp techniques (Electrophysiology) |
ISBN |
1-280-27051-9
9786610270514 0-470-85651-3 0-470-85652-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Patch Clamping; Contents; Preface; 1 Introduction; 1.1 Patch Clamping and its Context; 2 Basic Theoretical Principles; 2.1 Introduction to Membrane Biology; 2.1.1 The plasma membrane and its ionic environment; 2.1.2 Electrochemical gradients and the Nernst equation; 2.1.3 Maintenance of ion gradients and the membrane potential; 2.1.4 Ion channels; 2.2 Electrical Properties of the Cell Membrane; 2.2.1 Driving force and membrane resistance; 2.2.2 Membrane capacitance; 2.2.3 Consequences of membrane capacitance; 2.2.4 An electronic model of the plasma membrane
2.3 Recording Modes and their Equivalent Circuits2.3.1 The basics of equivalent circuits; 2.3.2 Intracellular recording; 2.3.3 Voltage clamp and current clamp; 2.3.4 Introduction to patch clamp configurations; 2.3.5 The equivalent circuit for the cell-attached patch configuration; 2.3.6 The equivalent circuit for the whole-cell configuration; 2.3.7 The equivalent circuit for the excised patch configurations; 3 Requirements; 3.1 The Platform; 3.1.1 Stability: vibrations and drift; 3.1.2 Where in the building should the set-up be placed?; 3.1.3 Anti-vibration tables; 3.2 Mechanics and Optics 3.2.1 The microscope3.2.2 Micromanipulators; 3.2.3 Pipette pressure; 3.2.4 Baths and superfusion systems; 3.3 Electrodes and Micropipettes; 3.3.1 Solid-liquid junction potentials and polarisation; 3.3.2 The bath electrode; 3.3.3 Micropipettes; 3.3.4 Liquid junction potentials; 3.4 Electronics; 3.4.1 External noise and Faraday cages; 3.4.2 Patch clamp amplifiers; 3.4.3 Noise prevention and signal conditioning; 3.4.4 Data acquisition and digitisation; 3.4.5 Computers and software; 4 The Practice of Patch Clamping; 4.1 Preparing the Experiment and Making a Seal; 4.1.1 Setting up 4.1.2 Bringing the pipette near the preparation4.1.3 Making the seal; 4.2 Whole-cell Modes; 4.2.1 Conventional whole-cell recording; 4.2.2 Perforated patch recording; 4.3 Single-channel Modes; 4.3.1 General notes; 4.3.2 Cell-attached patch; 4.3.3 Excised patches; 5 Whole-cell Protocols and Data Analysis; 5.1 Standard Cellular Parameters; 5.2 Voltage-activated Currents; 5.2.1 Introduction to pulse protocols; 5.2.2 Signal conditioning and positive/negative subtraction; 5.2.3 Space clamp artefacts; 5.2.4 Isolation of a homogeneous population of channels 5.2.5 Current-voltage relationships and reversal potential5.2.6 Determination of relative permeabilities; 5.2.7 Activation and inactivation studies; 5.3 Non-voltage-activated Currents; 5.3.1 Introduction to continuous recording; 5.3.2 Determination of reversal potential using voltage ramps; 6 Single-channel Protocols and Data Analysis; 6.1 General Single-channel Practice and Analysis; 6.1.1 Practical notes; 6.1.2 Amplitude analysis; 6.1.3 Event detection; 6.1.4 Dwell time analysis; 6.2 Continuous Recording of Single Channels; 6.2.1 Data acquisition; 6.2.2 Spontaneous activity 6.2.3 Receptor-induced activity |
Record Nr. | UNINA-9910830071403321 |
Molleman Areles
![]() |
||
New York, : J. Wiley, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Patch clamping : an introductory guide to patch clamp electrophysiology / / Areles Molleman |
Autore | Molleman Areles |
Pubbl/distr/stampa | New York, : J. Wiley, c2003 |
Descrizione fisica | 1 online resource (187 p.) |
Disciplina | 572/.437 |
Soggetto topico | Patch-clamp techniques (Electrophysiology) |
ISBN |
1-280-27051-9
9786610270514 0-470-85651-3 0-470-85652-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Patch Clamping; Contents; Preface; 1 Introduction; 1.1 Patch Clamping and its Context; 2 Basic Theoretical Principles; 2.1 Introduction to Membrane Biology; 2.1.1 The plasma membrane and its ionic environment; 2.1.2 Electrochemical gradients and the Nernst equation; 2.1.3 Maintenance of ion gradients and the membrane potential; 2.1.4 Ion channels; 2.2 Electrical Properties of the Cell Membrane; 2.2.1 Driving force and membrane resistance; 2.2.2 Membrane capacitance; 2.2.3 Consequences of membrane capacitance; 2.2.4 An electronic model of the plasma membrane
2.3 Recording Modes and their Equivalent Circuits2.3.1 The basics of equivalent circuits; 2.3.2 Intracellular recording; 2.3.3 Voltage clamp and current clamp; 2.3.4 Introduction to patch clamp configurations; 2.3.5 The equivalent circuit for the cell-attached patch configuration; 2.3.6 The equivalent circuit for the whole-cell configuration; 2.3.7 The equivalent circuit for the excised patch configurations; 3 Requirements; 3.1 The Platform; 3.1.1 Stability: vibrations and drift; 3.1.2 Where in the building should the set-up be placed?; 3.1.3 Anti-vibration tables; 3.2 Mechanics and Optics 3.2.1 The microscope3.2.2 Micromanipulators; 3.2.3 Pipette pressure; 3.2.4 Baths and superfusion systems; 3.3 Electrodes and Micropipettes; 3.3.1 Solid-liquid junction potentials and polarisation; 3.3.2 The bath electrode; 3.3.3 Micropipettes; 3.3.4 Liquid junction potentials; 3.4 Electronics; 3.4.1 External noise and Faraday cages; 3.4.2 Patch clamp amplifiers; 3.4.3 Noise prevention and signal conditioning; 3.4.4 Data acquisition and digitisation; 3.4.5 Computers and software; 4 The Practice of Patch Clamping; 4.1 Preparing the Experiment and Making a Seal; 4.1.1 Setting up 4.1.2 Bringing the pipette near the preparation4.1.3 Making the seal; 4.2 Whole-cell Modes; 4.2.1 Conventional whole-cell recording; 4.2.2 Perforated patch recording; 4.3 Single-channel Modes; 4.3.1 General notes; 4.3.2 Cell-attached patch; 4.3.3 Excised patches; 5 Whole-cell Protocols and Data Analysis; 5.1 Standard Cellular Parameters; 5.2 Voltage-activated Currents; 5.2.1 Introduction to pulse protocols; 5.2.2 Signal conditioning and positive/negative subtraction; 5.2.3 Space clamp artefacts; 5.2.4 Isolation of a homogeneous population of channels 5.2.5 Current-voltage relationships and reversal potential5.2.6 Determination of relative permeabilities; 5.2.7 Activation and inactivation studies; 5.3 Non-voltage-activated Currents; 5.3.1 Introduction to continuous recording; 5.3.2 Determination of reversal potential using voltage ramps; 6 Single-channel Protocols and Data Analysis; 6.1 General Single-channel Practice and Analysis; 6.1.1 Practical notes; 6.1.2 Amplitude analysis; 6.1.3 Event detection; 6.1.4 Dwell time analysis; 6.2 Continuous Recording of Single Channels; 6.2.1 Data acquisition; 6.2.2 Spontaneous activity 6.2.3 Receptor-induced activity |
Record Nr. | UNINA-9910876688703321 |
Molleman Areles
![]() |
||
New York, : J. Wiley, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|