Sugar and Organic Acid Accumulation in Guard Cells of Vicia faba in Response to Red and Blue Light

Changes in neutral sugar and organic acid content of guard cells were quantitated by high-performance liquid chromatography during stomatal opening in different light qualities. Sonicated Vicia faba epidermal peels were irradiated with 10 [mu]mol m-2 s-1 of blue light, a fluence rate insufficient for the activation of guard cell photosynthesis, or 125 [mu]mol m-2 s-1 of red light, in the presence of 1 mM KCl, 0.1 mM CaCl2. The low-fluence-rate blue light stimulated an average net stomatal opening of 4.7 [mu]m in 2 h, whereas the saturating fluence rate of red light stimulated an average net opening of 3.8 [mu]m in 2 h. Under blue light, the malate content of guard cells increased to 173% of the initial level during the first 30 min of opening and declined as opening continued. Sucrose levels continuously rose throughout the blue light-stimulated opening, reaching 215% of the initial level after 2 h. The starch hydrolysis products maltose and maltotriose remained elevated at all times. Under red light, guard cells showed very little increase in organic acid or maltose levels, whereas sucrose levels increased to 208% of the initial level after 2 h. Total measured organic metabolite concentrations were correlated with stomatal apertures in all cases except where substantial malate increases occurred. These results support the hypothesis that light quality modulates alternative mechanisms of osmotic accumulation in guard cells, including potassium uptake, photosynthetic sugar production, and starch breakdown.

[1]  E. Zeiger,et al.  Blue light-modulation of chlorophyll a fluorescence transients in guard cell chloroplasts. , 1991, Plant physiology.

[2]  K. Tanaka,et al.  Calvin-Benson Cycle Enzymes in Guard-Cell Protoplasts from Vicia faba L: Implications for the Greater Utilization of Phosphoglycerate/Dihydroxyacetone Phosphate Shuttle between Chloroplasts and the Cytosol. , 1989, Plant physiology.

[3]  E. Zeiger,et al.  Light quality and osmoregulation in vicia guard cells : evidence for involvement of three metabolic pathways. , 1988, Plant physiology.

[4]  S. Taylor,et al.  Photosynthetic Carbon Fixation in Guard Cell Protoplasts of Vicia faba L. : Evidence from Radiolabel Experiments. , 1988, Plant physiology.

[5]  J. Preiss,et al.  Localization of Carbohydrate Metabolizing Enzymes in Guard Cells of Commelina communis. , 1987, Plant physiology.

[6]  K. Shimazaki,et al.  Red Light-Dependent CO(2) Uptake and Oxygen Evolution in Guard Cell Protoplasts of Vicia faba L.: Evidence for Photosynthetic CO(2) Fixation. , 1987, Plant physiology.

[7]  S. Gepstein,et al.  Immunological evidence for the presence of ribulose bisphosphate carboxylase in guard cell chloroplasts. , 1985, Plant physiology.

[8]  K. Shimazaki,et al.  Cyclic and Noncyclic Photophosphorylation in Isolated Guard Cell Chloroplasts from Vicia faba L. , 1985, Plant physiology.

[9]  A. S. Raghavendra,et al.  Change in Levels of Starch and Sugars in Epidermis of Commelina benghalensis during Fusicoccin Stimulated Stomatal Opening , 1983 .

[10]  M. Stitt,et al.  Physiological rates of starch breakdown in isolated intact spinach chloroplasts. , 1981, Plant physiology.

[11]  T. Ogawa,et al.  Isotachophoretic Analysis of Ions in Guard Cells of Vicia faba , 1979 .

[12]  J. Manchester,et al.  Guard cell starch concentration quantitatively related to stomatal aperture. , 1979, Plant physiology.

[13]  S. Miyachi,et al.  Wavelength effects on photosynthetic carbon metabolism in Chlorella , 1978 .

[14]  M. Steup,et al.  Characterization of starch breakdown in the intact spinach chloroplast. , 1977, Plant physiology.

[15]  T C Hsiao,et al.  Stomatal Opening in Isolated Epidermal Strips of Vicia faba. II. Responses to KCl Concentration and the Role of Potassium Absorption. , 1968, Plant physiology.

[16]  R. Fischer,et al.  Stomatal Opening: Role of Potassium Uptake by Guard Cells , 1968, Science.

[17]  R. Scheibe,et al.  Rubisco activity in guard cells compared with the solute requirement for stomatal opening. , 1990, Plant physiology.

[18]  W. H. Outlaw Carbon Metabolism in Guard Cells , 1982 .

[19]  J. V. G. Loftfield The behavior of stomata , 1921 .