Regulation of Tissue pH in Plants and Animals
A Reappraisal of Current Techniques
Part of Society for Experimental Biology Seminar Series
- Editors:
- S. Egginton, University of Birmingham
- Edwin W. Taylor, University of Birmingham
- J. A. Raven, University of Dundee
- Date Published: August 2007
- availability: Available
- format: Paperback
- isbn: 9780521039383
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The maintenance of a stable acid-base status within biological tissue is a fundamental homeostatic process in all organisms, necessary to preserve the metabolic function of proteins and other macromolecules. The study of acid-base regulation has advanced enormously over recent decades due to the development of increasingly accurate and sensitive techniques for measuring acid-base variables. This volume brings together contributions from leading comparative physiologists working on factors affecting the acid-base status of the internal fluids of animals and plants. The result is a broad-ranging, authoritative and accessible review of this area, together with a critical look at techniques and tools.
Read more- A broad-ranging, authoritative and accessible review of exciting discoveries in this area
- Provides a critical look at techniques and tools
- Points the way for future research
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×Product details
- Date Published: August 2007
- format: Paperback
- isbn: 9780521039383
- length: 392 pages
- dimensions: 223 x 153 x 22 mm
- weight: 0.586kg
- contains: 72 b/w illus. 13 tables
- availability: Available
Table of Contents
List of contributors
Preface
1. Measurement of intracellular pH: a comparison between ion-sensitive microelectrodes and fluorescent dyes C. J. Schwiening
2. pH-sensitive microelectrodes: how to use them in plant cells H. H. Felle
3. The use of nuclear magnetic resonance for examining pH in living system Stephen T. Kinsey and Timothy S. Moerland
4. Invasive studies of intracellular acid-base parameters: quantitative analyses during environmental and functional stress H. O. Portner and F. J. Sartoris
5. Lactate, H+ and ammonia transport and distribution in rainbow trout white muscle after exhaustive exercise Chris M. Wood and Yuxiang Wang
6. Limiting factors for acid-base regulation in fish: branchial transfer capacity versus diffusive loss of acid-base relevant ions Norbert Heisler
7. H+-mediated control of ion channels in guard cells of higher plants Michael R. Blatt and Alexander Grabov
8. pH regulation of plants with CO2-concentrating mechanisms J. A. Raven
9. Intracellular pH regulation in plants under anoxia R. G. Ratcliffe
10. The role of turtle shell in acid-base buffering Donald C. Jackson
11. Acid-base regulation in crustaceans: the role of bicarbonate ions Nia M. Whitely
12. A novel role for the gut of seawater teleosts in acid-base balance Rod W. Wilson
13. pH and smooth muscle: regulation and functional effects Susan Wray, Anthony J. Bullock, Naomi Buttell and Robert A. Duquette
14. Regulation of pH in vertebrate red blood cells Bruce L. Tufts
15. Acid-base regulation in hibernation and aestivation Andre Malan
16. Hepatic metabolism and pH in starvation and refeeding Victor A. Zammit
17. Back to basics: a plea for a fundamental reappraisal of the representation of acidity and basicity in biological solutions R. Tyler-Jones and E. W. Taylor
Index.
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