Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Measurement of intracellular pH: a comparison between ion-sensitive microelectrodes and fluorescent dyes
- pH-sensitive microelectrodes: how to use them in plant cells
- The use of nuclear magnetic resonance for examining pH in living systems
- Invasive studies of intracellular acid–base parameters: quantitative analyses during environmental and functional stress
- Lactate, H+ and ammonia transport and distribution in rainbow trout white muscle after exhaustive exercise
- Limiting factors for acid–base regulation in fish: branchial transfer capacity versus diffusive loss of acid–base relevant ions
- H+-mediated control of ion channels in guard cells of higher plants
- pH regulation of plants with CO2-concentrating mechanisms
- Intracellular pH regulation in plants under anoxia
- The role of turtle shell in acid–base buffering
- Acid–base regulation in crustaceans: the role of bicarbonate ions
- A novel role for the gut of seawater teleosts in acid–base balance
- pH and smooth muscle: regulation and functional effects
- Regulation of pH in vertebrate red blood cells
- Acid–base regulation in hibernation and aestivation
- Hepatic metabolism and pH in starvation and refeeding
- Back to basics: a plea for a fundamental reappraisal of the representation of acidity and basicity in biological solutions
- Index
Hepatic metabolism and pH in starvation and refeeding
Published online by Cambridge University Press: 22 August 2009
Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Measurement of intracellular pH: a comparison between ion-sensitive microelectrodes and fluorescent dyes
- pH-sensitive microelectrodes: how to use them in plant cells
- The use of nuclear magnetic resonance for examining pH in living systems
- Invasive studies of intracellular acid–base parameters: quantitative analyses during environmental and functional stress
- Lactate, H+ and ammonia transport and distribution in rainbow trout white muscle after exhaustive exercise
- Limiting factors for acid–base regulation in fish: branchial transfer capacity versus diffusive loss of acid–base relevant ions
- H+-mediated control of ion channels in guard cells of higher plants
- pH regulation of plants with CO2-concentrating mechanisms
- Intracellular pH regulation in plants under anoxia
- The role of turtle shell in acid–base buffering
- Acid–base regulation in crustaceans: the role of bicarbonate ions
- A novel role for the gut of seawater teleosts in acid–base balance
- pH and smooth muscle: regulation and functional effects
- Regulation of pH in vertebrate red blood cells
- Acid–base regulation in hibernation and aestivation
- Hepatic metabolism and pH in starvation and refeeding
- Back to basics: a plea for a fundamental reappraisal of the representation of acidity and basicity in biological solutions
- Index
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- Regulation of Tissue pH in Plants and AnimalsA Reappraisal of Current Techniques, pp. 341 - 352Publisher: Cambridge University PressPrint publication year: 1999