Plant Electrophysiology [electronic resource] : Theory and Methods / edited by Alexander G. Volkov.

Call Number
571.2
Title
Plant Electrophysiology Theory and Methods / edited by Alexander G. Volkov.
Physical Description
XXII, 508 p. 142 illus., 25 illus. in color. online resource.
Contents
Methods of Plant Electrophysiology -- Historical Introduction to Plant Electrophysiology -- Electrochemical Methods and Measuring Transmembrane Ion Gradients -- Non-Invasive Microelectrode Ion Flux Measurements In Plant Stress Physiology -- Electrochemical Sensor Applications to the Study of Molecular Physiology and Analyte Flux in Plants -- Use of Non-Invasive Ion-Selective Microelectrode Techniques for the Study of Plant Development -- Use of Double Barrel Micropipettes to Voltage-Clamp Plant and Fungal Cells -- New Solid State Microsensors in Plant Physiology -- Electrophysiological Characterization of Plant Cation Channels -- Magnetic Measurements in Plant Electrophysiology -- Plant Electrophysiology -- Electrogenic Pumps -- Effects of Electrical and Electromagnetic Fields on Plants and Related Topics -- Long-Distance Electrical Signaling and Physiological Functions in Higher Plants -- Potassium Homeostasis in Salinized Plant Tissues -- Electrophysiology in Mechanosensing and Wounding Response -- Electrochemical Potential Around the Plant Root in Relation to Metabolism and Growth Acceleration -- Electrophysiology of Turgor Regulation in Charophyte Cells -- Electrical Signals in Plants: Facts and Hypotheses -- Electrophysiology of Plant Gravitropism -- Electrochemistry of Plant Life -- Electrophysiology and Plant Responses to Biotic Stress -- Control of Plant Development by Hydro-Electrochemical Signal Transduction: a Means for Understanding Photoperiodic Flower Induction.
Summary
As a pioneering work on plant electrophysiology, this exciting reference compiles new findings from the work of internationally renowned experts in the fields of electrophysiology, bio-electrochemistry, biophysics, signal transduction, phloem transport, tropisms, ion channels, plant electrochemistry, and membrane transport. The book starts with a historical introduction to plant electrophysiology, followed by two distinct parts. The first one deals with methods in plant electrophysiology, including, amongst others, measuring membrane potentials and ion fluxes, path-clamp technique, and electrochemical sensors. The second part covers experimental results and their theoretical interpretation.
Added Author
Volkov, Alexander G. editor.
SpringerLink (Online service)
Subject
LIFE SCIENCES.
PLANT BIOCHEMISTRY.
CELL BIOLOGY.
PLANT SCIENCE.
BOTANY.
PLANT PHYSIOLOGY.
Biology Technique.
Life Sciences.
Plant Physiology.
Plant Biochemistry.
Biological Techniques.
Cell Biology.
Plant Sciences.
Multimedia
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$a Methods of Plant Electrophysiology -- Historical Introduction to Plant Electrophysiology -- Electrochemical Methods and Measuring Transmembrane Ion Gradients -- Non-Invasive Microelectrode Ion Flux Measurements In Plant Stress Physiology -- Electrochemical Sensor Applications to the Study of Molecular Physiology and Analyte Flux in Plants -- Use of Non-Invasive Ion-Selective Microelectrode Techniques for the Study of Plant Development -- Use of Double Barrel Micropipettes to Voltage-Clamp Plant and Fungal Cells -- New Solid State Microsensors in Plant Physiology -- Electrophysiological Characterization of Plant Cation Channels -- Magnetic Measurements in Plant Electrophysiology -- Plant Electrophysiology -- Electrogenic Pumps -- Effects of Electrical and Electromagnetic Fields on Plants and Related Topics -- Long-Distance Electrical Signaling and Physiological Functions in Higher Plants -- Potassium Homeostasis in Salinized Plant Tissues -- Electrophysiology in Mechanosensing and Wounding Response -- Electrochemical Potential Around the Plant Root in Relation to Metabolism and Growth Acceleration -- Electrophysiology of Turgor Regulation in Charophyte Cells -- Electrical Signals in Plants: Facts and Hypotheses -- Electrophysiology of Plant Gravitropism -- Electrochemistry of Plant Life -- Electrophysiology and Plant Responses to Biotic Stress -- Control of Plant Development by Hydro-Electrochemical Signal Transduction: a Means for Understanding Photoperiodic Flower Induction.
520
$a As a pioneering work on plant electrophysiology, this exciting reference compiles new findings from the work of internationally renowned experts in the fields of electrophysiology, bio-electrochemistry, biophysics, signal transduction, phloem transport, tropisms, ion channels, plant electrochemistry, and membrane transport. The book starts with a historical introduction to plant electrophysiology, followed by two distinct parts. The first one deals with methods in plant electrophysiology, including, amongst others, measuring membrane potentials and ion fluxes, path-clamp technique, and electrochemical sensors. The second part covers experimental results and their theoretical interpretation.
650
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$a LIFE SCIENCES.
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$a PLANT BIOCHEMISTRY.
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$a CELL BIOLOGY.
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$a PLANT SCIENCE.
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$a BOTANY.
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$a PLANT PHYSIOLOGY.
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$a Plant Biochemistry.
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$a Biological Techniques.
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$a Cell Biology.
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$a Plant Sciences.
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$a Volkov, Alexander G. $e editor.
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Summary
As a pioneering work on plant electrophysiology, this exciting reference compiles new findings from the work of internationally renowned experts in the fields of electrophysiology, bio-electrochemistry, biophysics, signal transduction, phloem transport, tropisms, ion channels, plant electrochemistry, and membrane transport. The book starts with a historical introduction to plant electrophysiology, followed by two distinct parts. The first one deals with methods in plant electrophysiology, including, amongst others, measuring membrane potentials and ion fluxes, path-clamp technique, and electrochemical sensors. The second part covers experimental results and their theoretical interpretation.
Contents
Methods of Plant Electrophysiology -- Historical Introduction to Plant Electrophysiology -- Electrochemical Methods and Measuring Transmembrane Ion Gradients -- Non-Invasive Microelectrode Ion Flux Measurements In Plant Stress Physiology -- Electrochemical Sensor Applications to the Study of Molecular Physiology and Analyte Flux in Plants -- Use of Non-Invasive Ion-Selective Microelectrode Techniques for the Study of Plant Development -- Use of Double Barrel Micropipettes to Voltage-Clamp Plant and Fungal Cells -- New Solid State Microsensors in Plant Physiology -- Electrophysiological Characterization of Plant Cation Channels -- Magnetic Measurements in Plant Electrophysiology -- Plant Electrophysiology -- Electrogenic Pumps -- Effects of Electrical and Electromagnetic Fields on Plants and Related Topics -- Long-Distance Electrical Signaling and Physiological Functions in Higher Plants -- Potassium Homeostasis in Salinized Plant Tissues -- Electrophysiology in Mechanosensing and Wounding Response -- Electrochemical Potential Around the Plant Root in Relation to Metabolism and Growth Acceleration -- Electrophysiology of Turgor Regulation in Charophyte Cells -- Electrical Signals in Plants: Facts and Hypotheses -- Electrophysiology of Plant Gravitropism -- Electrochemistry of Plant Life -- Electrophysiology and Plant Responses to Biotic Stress -- Control of Plant Development by Hydro-Electrochemical Signal Transduction: a Means for Understanding Photoperiodic Flower Induction.
Subject
LIFE SCIENCES.
PLANT BIOCHEMISTRY.
CELL BIOLOGY.
PLANT SCIENCE.
BOTANY.
PLANT PHYSIOLOGY.
Biology Technique.
Life Sciences.
Plant Physiology.
Plant Biochemistry.
Biological Techniques.
Cell Biology.
Plant Sciences.
Multimedia