Inducible Plant Proteins
Their Biochemistry and Molecular Biology
Part of Society for Experimental Biology Seminar Series
- Editor: John L. Wray, University of St Andrews, Scotland
- Date Published: July 1992
- availability: Available
- format: Hardback
- isbn: 9780521401708
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Plants are able to respond and adapt to changing environmental and endogenous signals by the induction of the synthesis of specific proteins, acting to modify cellular metabolism. Environmental signals include temperature, anaerobiosis and pathogen attack amongst others, whilst endogenous signals include changes in the level of plant growth regulators. In this 1992 text, leading researchers discuss the role that inducible proteins play in cellular metabolism, and the approaches being used to delineate the molecular events leading to their synthesis. Chapters discuss molecular approaches to the study of gene expression, the identification and characterisation of trans-acting transcription factors and attempts to dissect other parts of the signal transduction pathway by the search for pathway mutants. This review volume will be of great value and interest to final year undergraduates, graduate students and researchers in the fields of plant biochemistry and molecular biology.
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×Product details
- Date Published: July 1992
- format: Hardback
- isbn: 9780521401708
- length: 326 pages
- dimensions: 229 x 152 x 19 mm
- weight: 0.61kg
- contains: 92 b/w illus. 10 tables
- availability: Available
Table of Contents
List of contributors
Preface
1. Metal-binding proteins and metal-regulated gene expression in higher plants A. B. Tomsett, A. K. Sewell, S. J. Jones, J. R. de Miranda and D. A. Thurman
2. Phosphate starvation inducible enzymes and proteins in higher plants A. H. Goldstein
3. Nitrate reduction in higher plants: molecular approaches to function and regulation P. Rouzé and M. Caboche
4. Inducibility of the glutamine synthetase gene family in phaseolus vulgaris L. J. V. Cullimore, J. M. Cock, T. J. Daniel, L. R. Swarup and M. J. Bennett
5. Expression and manipulation of genes involved in phenylpropanoid biosynthesis W. Schuch
6. Biochemistry and molecular biology of CAM H. J. Bohnert, D. M. Vernon, E. J. De Rocher, C. B. Michalowski and J. C. Cushman
7. ABA- and GA-responsive gene expression F. L. Olsen, K. Skriver, F. Müller-Uri, N. V. Raikhel, J. C. Rogers and J. Mundy
8. Regulation of gene expression, ethylene synthesis and ripening in transgenic tomatoes D. Grierson, A. J. Hamilton, M. Bouzayen, M. Köck, G. W. Lychett and S. Barton
9. Induction of nodulin genes and root nodule symbiosis D. P. S. Verma and G.-H. Miao
10. Systemic acquired resistance: an inducible defence mechanism in plants J. Ryals, E. Ward, P. Ahl-Goy and J. P. Metraux
11. Biochemistry and molecular biology of the anaerobic response E. S. Dennis, M. Olive, R. Dolferus, A. Millar, W. J. Peacock and T. L. Setter
12. The heat shock response in transgenic plants: the use of chimaeric heat shock genes F. Schöffl, V. Diedring, M. Kliem, M. Rieping, G. Schröder and K. Severin
13. Biochemistry and molecular biology of cold-inducible enzymes and proteins in higher plants L. Cattivelli and D. Bartels
14. GBF-1, GBF-2 and GBF-3: three arabidopsis b-zip proteins that interact with the light-regulated rbcs-1A promoter U. Schindler, A. E. Menekens and A. R. Cashmore
Index.
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