Post-translational Modifications in Plants

This book is about what happens to proteins once they have been synthesised within the plant cell.

N. H. Battey (Edited by), H. G. Dickinson (Edited by), A. M. Hetherington (Edited by)

9780521411813, Cambridge University Press

Hardback, published 18 March 1993

332 pages, 70 b/w illus. 9 tables
23.4 x 15.5 x 2 cm, 0.668 kg

'… a good starting point for undergraduates, not only in terms of plant biology but also as a discussion of post translational modifications in general.' David Stephens, FEBS Letters

Post-translational modifications are now known to play a fundamental role in regulating the activity, location and function of a wide range of proteins. In plant cells work on different types of post-translational modifications has progressed largely along independent lines. This book brings research workers together to allow an exchange of ideas, and reflects a diversity of interest whilst also revealing common ground. An introductory chapter reviewing recent progress in the field is followed by reviews of protein phosphorylation in bacteria and animals which provide a useful perspective on this subject in plants. Consideration is then given to plant protein kinases and the processes they control. Acylation and glycosylation, and their functions in protein targeting and folding are reviewed, along with the roles of glycoproteins in plant development and of ubiquitination in plant senescence.

1. Some roles of post-translational modifications in plants N. H. Battey
2. Signal transduction and protein phosphorylation in bacteria R. A. Dixon
3. Roles of protein phosphorylation in animal cells D. G. Hardie
4. The significance of post-translational modification of proteins by phosphorylation in the regulation of plant development and metabolism K. M. Fallon and A. J. Trewavas
5. Post-translational modification of chloroplast proteins and the regulation of protein turnover A. K. Mattoo
6. Purification of a small phosphoprotein from chloroplasts and characterisation of its phosphoryl group J. Soll
7. Use of synthetic peptides to study G-proteins and protein kinases within plant cells I. R. White
8. Activation of membrane-associated protein kinase by lipids, its substrates, and its function in signal transduction G. F. E. Scherer
9. Distribution and function of Ca2+-dependent, calmodulin-independent protein kinases N. H. Battey
10. Phosphorylation of the plasma membrane proton pump M. R. Sussman
11. The regulation of phosphoenolpyruvate carboxylase by reversible phosphorylation H. G. Nimmo
12. Protein phosphorylation and circadian rhythms L. Rensing
13. Control of translation by phosphorylation of mRNP proteins in Fucus and Xenopus A. D. Shirras
14. Regulation of plant metabolism by reversible protein (serine/threonine) phosphorylation R. W. Mackintosh and C. Mackintosh
15. Detection, biosynthesis and some functions of glycans N-linked to plant secreted proteins L. Faye: 16. Biosynthesis, intracellular transport and processing of ricin J. M. Lord and L. M. Roberts
17. Post-translational processing of concanavalin D. Bowles
18. The role of cell surface glycoproteins in differentiation and morphogenesis J. P. Knox.

Subject Areas: Botany & plant sciences [PST]