The Possible Participation of the Mesophyll on Stomatal Opening

  • 발행 : 2001.03.01

초록

Many researchers have been studied with guard cell protoplasts and detached epidermis as they think that properly stabilized protoplasts and detached epidermis retain many of the properties of intact guard cells. However, some studies have shown that stomata in detached epidermis behave differently, both quantitatively and qualitatively, from those in the intact leaf. Stomata in the intact leaf are very sensitive to environmental factors such as light, $CO_2$ and osmotic stress, but stomata in detached epidermis are less sensitive to these factors than those in the intact leaf. The clearest evidence to suggest the different response between detached epidermis and intact leaf obtained from the experiments with heavy metal, cadmium. 3-weeks old Commelina. communis was transferred to and grown in Hoagland solution in the presence or absence of 5 mM $Cd^{2+}$ for 4 days. The application of $Cd^{2+}$ showed about 70% inhibition of stomatal conductance when measured at various light intensity (100-1,000 $\mu$mole $m^{-2}s^{-1}). However, stomata in detached epidermis floated on an incubation medium containing 100 $\mu$M $Cd^{2+}$ opened to a degree of about 8.38 fm, but the stomata treated with no cadmium opened to 3.74 ${\mu}{\textrm}{m}$. These results were unexpected as the intact leaf grown in a Hoagland solution containing cadmium showed very negative physiological responses. These results showed that stomata in detached epidermis and in the intact leaf could respond reversely. Therefore, it is possible that we now misunderstand how stomata open in real natural condition.

키워드

참고문헌

  1. Aust. J. Biol. Sci. v.26 Preparation of rolled epidermis of Vicia faba L. So that stomatea are the only visible cells: Analyis of guard cell potassium by flame photometry Allaway WG;TC Hsiao
  2. Stomatal Function Guard cell energetics Assmann SM;E Zeiger;Zeiger E(ed.);GD Farquhar(ed.);IR Cowan(ed.)
  3. J. Exp. Bot. v.33 Cell potentials and turgor pressure in epidermal cells of Tradescantia and Commelina Cheeseman JM;M. Edwards;H. Medner
  4. J. Exp. Bot. v.42 Stomatal responses measured using a viscous flow (liquid) prometer Fricker MD;DA Grantz;CM Willmer
  5. Plant Physiol. v.121 Rates of sugar uptake by guard cell protoplasts of Pisum sativum L. related to the solute requirement for stomatal opening Gerhard R;R Johanna;R Kerstin;K Raschke
  6. Plant Physiol. v.86 Photosynthetic carbon fixation in guard cell protoplasts of Vicia faba L. Gotow K;S Taylor;E Zeiger
  7. Planta v.174 Guard cells of Commelina communis L. do not respond metabolically to osmotic stress in isolated epidermis:implications for stomatal responses to drought and humidity Grantz DA;A Schwartz
  8. J. Exp. Bot. v.5 Studies in stomatal behaviour. IV. An investigation of the light responses of wheat tomata with the attempted elimination of control by the messophyll Heath OVS;J Russell
  9. Nature v.329 Cytoplasmic calcium regulates voltage dependent ion channels in plant vacuoles Hedrich R;E Neher
  10. Plant Physiol. v.48 Stomatal opening quantitatively related to potassium transport. Evidence from electron probe analysis Humble GD;K Raschke
  11. J. Exp. Bot. v.43 Effect of the mesophyll on stomatal opening in Commelina communis Lee JS;DJF Bowling
  12. J. Plant Physiol v.142 The effect of a mesophyll factor on the swelling of guard cell protoplasts of Commelina communis L. Lee JS;DJF Bowling
  13. Korean J. Bot. v.36 Influence of the mesophyll on the change of electrical potential difference of guard cells induced by red-light and CO₂ in Commelina communis L. and Tradescantia virginiana L. Lee JS;DJF Bowling
  14. J. Natural Science v.8 Effect of light and mesophyll on the change of electrical potential difference and pH in guard cells of Commelina communis L. Sangji University Lee JS
  15. Aust. J. Plant Physiol v.22 Influence of the mesophyll on stomatal opening Lee JS;DJF Bowling
  16. Korean J. Environ. Biol. v.18 no.1 The distribution of $Cd^{2+}$ and its physiological toxicity in Commelina communis L. Lee JS
  17. Korean J. Environ. Biol. v.18 no.2 The effect of $Cd^{2+}$ on stomatal apertures of epidermal strips in commelina communis L. Lee JS
  18. J. Membrane Biol. v.53 Ion content and aperture in isolated guard cells of Commelina communis L. MacRobbie EAC;J Lettau
  19. J. Membrane Biol. v.56 Potassium content and apeture of intact stomatal and epidermal cells of Commelina communis L. MacRobbie EAC;J Lettau
  20. Stomatal Function Ionic relations of guard cells MacRobbie EAC;Zeiger, GD Farquhar(ed.);IR Cowan(ed.)
  21. Canadian J. Bot. v.53 The occurrence of functionnal non-chlorphyllous guard cells in Paphiopedilum spp. Nelson SD;JM Mayo
  22. Proceedings of the National Academy of Sci. v.74 Odrganic acid and potassium accumulation in guard cells during stomatal opening Outlaw WH;OH Lowry
  23. Physiol. Plant. v.77 Critical examination of the quantitative evidence for and against photosynthetic CO₂ fixation by guard cells Outlaw WH
  24. Planta v.119 A study of potassium gradients in the epidermis of intact leaves of Commelina communis L. in relation to stomatal opening Penny MG:DJF Bowling
  25. Plant Physiol. v.92 Rubisco activity in guard cells compared with the solute requirement for stomatal opening Reckman U;R Scheibe R;K Raschke
  26. Plant, Cell Environ. v.2 A light and electron microscopy study of the eqidermis of Paphiopedilum spp. with emphasis on stomatal ultrastructure Rutter JC;CM Willmer
  27. Aust. J. Plant Physiol. v.24 Leaf bioelectric responses to rhythmical light: Identification of the contributions from stomatal and mesophyll cells Sergy NS
  28. J. Exp. Bot. v.49 The role of surcrose in guard cell osmoregulation Talbott L;E Zeiger
  29. Plant, Cell Environ. v.2 Stomatal responses to light and CO₂ are dependent on KCI concentration Travis AJ;TA Mansfield
  30. New Phyto. v.68 A critical examination of the use of detached epidermis in studies of stomatal physiology Willmer CM;TA Mansfield
  31. Nature v.282 Stomatal conductance correlates with photosynthetic capacity Wong SC;IR Cowan;GD Farquhar
  32. Plant, Cell Environ. v.13 light perception in guard cells Zeiger E
  33. Stomatal Function The blue-light responses of stomata:mechanism and function Zeiger E;M Iino;K Shimazaki;T Ogawa;Zeiger E(ed.);GD Farquhar(ed.);IR Cowan(ed.)