Guard cell metabolism and CO2 sensing

Abstract

Summary: In this review we concentrate on guard cell metabolism and CO₂ sensing. Although a matter of some controversy, it is generally accepted that the Calvin cycle plays a minor role in stomatal movements. Recent data emphasise the importance of guard cell starch degradation and of carbon import from the guard cell apoplast in promoting and maintaining stomatal opening. Chloroplast maltose and glucose transporters appear to be crucial to the export of carbon from both guard and mesophyll cells. The way guard cells sense CO₂ remains an unresolved question. However, a better understanding of the cellular events downstream from CO₂ sensing is emerging. We now recognise that there are common as well as unique steps in abscisic acid (ABA) and CO₂ signalling pathways. For example, while ABA and CO₂ both trigger increases in cytoplasmic free calcium, unlike ABA, CO₂ does not promote a cytoplasmic pH change. Future advances in this area are likely to result from the increased use of techniques and resources, such as, reverse genetics, novel mutants, confocal imaging, and microarray analyses of the guard cell transcriptome. Contents Summary 665 Abbreviations 665 I. Introduction 666 II. Guard cell metabolism 666 III. Guard cell CO₂ sensing 672 IV. Prospects in guard cell metabolism and CO₂ sensing 676 Acknowledgements 677 References 677