Nitric Oxide in Plant Growth, Development and Stress Physiology

  • Editors
  • Lorenzo Lamattina
  • Joseph C. Polacco

Part of the Plant Cell Monographs book series (CELLMONO, volume 5)

Table of contents

  1. Front Matter
    Pages I-XIV
  2. Werner M. Kaiser, Kapuganti J. Gupta, Elisabeth Planchet
    Pages 1-14
  3. David Wendehenne, Cécile Courtois, Angélique Besson, Antoine Gravot, Annie Buchwalter, Alain Pugin et al.
    Pages 35-51
  4. Christian Lindermayr, Jörg Durner
    Pages 53-71
  5. Marcela Simontacchi, Sebastián Jasid, Susana Puntarulo
    Pages 73-90
  6. Zlatko Giba, Dragoljub Grubišić, Radomir Konjević
    Pages 91-111
  7. Natalia Correa-Aragunde, María Luciana Lanteri, Carlos García-Mata, Arjen ten Have, Ana María Laxalt, Magdalena Graziano et al.
    Pages 113-130
  8. Sergei G. Sokolovski, Michael R. Blatt
    Pages 153-171
  9. Emmanuel Baudouin, Nicolas Pauly, Alain Puppo
    Pages 173-186
  10. Francisco J. Corpas, Juan B. Barroso, Alfonso Carreras, Raquel Valderrama, José M. Palma, Luis A. del Río
    Pages 187-205
  11. Matteo De Stefano, Elodie Vandelle, Annalisa Polverari, Alberto Ferrarini, Massimo Delledonne
    Pages 207-222
  12. Ione Salgado, Luzia V. Modolo, Ohara Augusto, Márcia R. Braga, Halley C. Oliveira
    Pages 239-254
  13. Abir U. Igamberdiev, Kevin N. Baron, Robert D. Hill
    Pages 255-268
  14. Back Matter
    Pages 281-283

About this book


Recent advances in the study of nitric oxide (NO) biology, biochemistry, molecular biology and physiology in plants are presented in this book, providing an overview of current understanding of the NO actions involved in adaptive responses of plant fitness to environmental constraints. The special emphasis is on NO-dependent signalling, molecular adjustments and targets as key elements in plant growth, development and stress physiology.

The first part of the book is devoted to the description of key features related to NO biochemistry, synthesis and metabolism and the modes of action involved. The second part covers the functionality of NO in three central nodes of the plant life cycle: growth, development and stress physiology. Finally, a detailed analysis of the advantages and disadvantages of the use of fluorometric detection of NO in plant research brings to light information necessary for understanding the limitations of the method.


Assimilat Pathogen S-nitrosylation Signalübertragung, Pflanzen Stickoxide Stoffwechsel, Stickstoff biochemistry metabolism nitric oxide nitrogen nitrogen metabolism physiology plant signaling reductase stress physiology

Bibliographic information