A mechanism of respiration-dependent water uptake enhanced by auxin |
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Authors: | Kiyoshi Katou Muneyoshi Furumoto |
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Institution: | (1) Biological Institute, Faculty of Science, Nagoya University, Chikusa-ku, 464 Nagoya, Japan;(2) Department of Earth Sciences, Faculty of Science, Nagoya University, Nagoya |
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Abstract: | Summary There are many contradictory observations on the mechanohydraulic relation of growing higher plant cells and tissues. Graphical analysis of the simultaneous equations which govern irreversible wall yielding and water absorption has made more comprehensive the understanding of this relation when relative growth rate is plotted against turgor pressure. It suggests that some respiration-dependent and auxin sensitive process might regulate the difference of osmotic potential between cells and water source. Based on anatomical and electrophysiological knowledge of the pea stem xylem, we propose the wall canal system as the mechanism of respiration-dependent water uptake which is sensitive to auxin. This system consists of the xylem apoplastic walls, the xylem proton pumps, active solute uptake system and cell membranes. In the simplest case, third-order simultaneous differential equations are involved. Numerical analysis showed that net uptake of solutes enables water to be taken up against an opposing gradient of water potential. The behaviour of this wall canal system describes well the mechano-hydraulic relation of enlarging plant cells and tissues. Recent typical, but incompatible, interpretations of this relation are critically discussed based on our model.Abbreviations V
the volume of enlarging symplast
-
the average extensibility of the wall
- Pi
turgor pressure
- Y
the yield threshold of the wall
- L
the relative hydraulic conductance
-
the solute reflection coefficient of the plasmamembrane
- Ci
the osmotic concentration of the symplast cells
- Cx
the osmotic concentration of the xylem vessels
- Px
hydrostatic pressure in the xylem vessels
- R
the gas constant
- T
absolute temperature
- o
water potential of xylem fluid
- i
water potential of symplast cells |
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Keywords: | Auxin Proton pump Respiration-dependent water uptake Local osmosis Solute depletion zone Wall canal system |
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