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In the light of stomatal opening: new insights into ‘the Watergate’

  1. M. Rob G. Roelfsema,
  2. Rainer Hedrich*

Article first published online: 17 JUN 2005

DOI: 10.1111/j.1469-8137.2005.01460.x

Issue

New Phytologist

New Phytologist

Volume 167, Issue 3, pages 665–691, September 2005

Additional Information

How to Cite

Roelfsema, M. R. G. and Hedrich, R. (2005), In the light of stomatal opening: new insights into ‘the Watergate’. New Phytologist, 167: 665–691. doi: 10.1111/j.1469-8137.2005.01460.x

Author Information

  1. Molecular Plant Physiology and Biophysics, Julius-von-Sachs Institute for Biosciences, Biocenter, Würzburg University, Julius-von-Sachs-Platz 2, D-97082 Würzburg, Germany

*Author for correspondence: Rainer Hedrich Tel: +49 931 8886100 Fax: +49 931 8886157 Email: hedrich@botanik.uni-wuerzburg.de

Publication History

  1. Issue published online: 17 JUN 2005
  2. Article first published online: 17 JUN 2005
  3. Received: 7 December 2004 Accepted: 14 March 2005

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Keywords:

  • abscisic acid (ABA);
  • blue light;
  • CO2;
  • crosstalk;
  • guard cell;
  • ion channel;
  • signaling pathway;
  • stomata

Contents

  • Summary 1

  • I. 
    Introduction 1
  • II. 
    The hydrodynamic valve 2
  • III. 
    Regulation of ion transport in guard cells 14
  • IV. 
    Interaction between guard cell signaling pathways 18
  • V. 
    Outlook 20

  • Acknowledgements 21

  • References 21

Summary

Stomata can be regarded as hydraulically driven valves in the leaf surface, which open to allow CO2 uptake and close to prevent excessive loss of water. Movement of these ‘Watergates’ is regulated by environmental conditions, such as light, CO2 and humidity. Guard cells can sense environmental conditions and function as motor cells within the stomatal complex. Stomatal movement results from the transport of K+ salts across the guard cell membranes. In this review, we discuss the biophysical principles and mechanisms of stomatal movement and relate these to ion transport at the plasma membrane and vacuolar membrane. Studies with isolated guard cells, combined with recordings on single guard cells in intact plants, revealed that light stimulates stomatal opening via blue light-specific and photosynthetic-active radiation-dependent pathways. In addition, guard cells sense changes in air humidity and the water status of distant tissues via the stress hormone abscisic acid (ABA). Guard cells thus provide an excellent system to study cross-talk, as multiple signaling pathways induce both short- and long-term responses in these sensory cells.

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