A brief note on growth physiology of plants

Journal of Plant Research

Volumn 109, Issue 1, 1996, Pages 69-74

  Okamoto, Hisashi ^a,b  

^a YOKOHAMA CITY UNIVERSITY   (Japan)

^b Mori Laboratory of Plant Physiology   (Japan)

Author keywords

Growth equation; Molecular model; Physiological structure; Proton pumps; Wall mechanical properties in vitro; Yield threshold

Indexed keywords

EID: 0030306982     PISSN: 09189440     EISSN: None     Source Type: Journal    
DOI: 10.1007/bf02344290     Document Type: Article

References (35)

1. Burström, H.G. 1971. Wishful thinking of turgor. Nature 234: 488.
2. Cleland, R.E. 1971. Cell wall extension. Ann. Rev. Plant Physiol. 22: 197-222.
3. Cleland, R.E. 1977. The control of cell enlargement. In D.H. Jennings, ed., Integration of Activity in the Higher Plant Symp. Soc. Exp. Biol., Cambridge University Press, 31: 101-155.
4. Cleland, R.E. 1990. Auxin and cell elongation. In P.J. Davies, ed., Plant Hormones and Their Role in Plant Growth and Development. Kluwer Academic Publishers, Dordrecht, pp. 132-148.
5. Cosgrove, D.J. 1985. Cell wall yield properties of growing tissue. Plant Physiol. 78: 347-356.
6. Cosgrove, D.J. 1987. Wall relaxation in growing stems: comparison of four species and assessment of measurement techniques. Planta 171: 266-278.
7. + absorption from the xylem of Vigna unguiculata: the effects of auxin and fusicoccin. Plant Cell Environ. 8: 579-586.
8. Eyring, H. and Urry, D.W. 1965. Thermodynamics and Chemical Kinetics. In T.H. Waterman and H.J. Morwitz, eds., Theoretical and Mathematical Biology. The Yale University Press, pp. 57-95.
9. Green, P.B. and Cummins, W.R. 1974. Growth rate and turgor pressure. Plant Physiol. 54: 863-869.
10. Green, P.B., Erickson, R.O. and Buggy, J. 1971. Metabolic and physical control of cell elongation rate, in vivo studies in Nitella. Plant Physiol. 47: 423-430.
11. Hager, A.H., Menzel, H. and Krauss, A. 1971. Versuche und Hypothese zur Primärwirkung des Auxins beim Streckungswachstum. Planta 100: 47-75.
12. + pump activation and elongation growth studied by means of xylem perfusion. Plant Cell Physiol. 29: 261-267.
13. Katou, K. and Furumoto, M. 1986a. A mechanism of respiration-dependent water uptake in higher plants. Protoplasma 130: 80-82.
14. Katou, K. and Furumoto, M. 1986b. A mechanism of respiration-dependent water uptake enhanced by auxin. Protoplasma 133: 174-185.
15. Katou, K. and Okamoto, H. 1970. Distribution of electric potential and ion transport in the hypocotyl of Vigna sesquipedalis I. Distribution of overall ion concentration and the role of hydrogen ion in generation of potential difference. Plant Cell Physiol. 11: 385-402.
16. Katou, K. and Okamoto, H. 1992. Symplast as a functional unit in plant growth. Inter. Rev. Cytol. 142: 263-304.
17. Kutschera, U. and Schopfer, P. 1985. Evidence against the acid-growth theory of auxin action. Planta 163: 483-493.
18. Liu, Q., Katou, K. Okamoto, H. 1992. Effects of exogenous auxin on the regulation of elongation growth of excised segments of Vigna hypocotyls under osmotic stress. Plant Cell Physiol. 33: 915-919.
19. Lockhart, J.A. 1965. An analysis of irreversible plant cell elongation. J. Theor. Biol. 8: 264-275.
20. Maruyama, S. and Boyer, J.S. 1994. Auxin action on growth in intact plants: Threshold turgor is regulated. Planta 193: 44-50.
21. Mizuno, A., Katou, K. and Okamoto, H. 1980. Structure and function of the elongation sink in the stems of higher plants I. Effects of anoxia and IAA on the growth rate and the spatially separate electrogenic ion pumps. Plant Cell Physiol. 21: 395-403.
22. Mizuno, A., Kojima, H., Katou, K. and Okamoto, H. 1985. The electrogenic proton pumping from parenchyma symplast into xylem - direct demonstration by xylem perfusion. Plant Cell Environ. 8: 525-529.
23. Mizuno, A., Nakahori, K. and Katou, K. 1993. Acid-induced changes in the in vivo wall yielding properties of hypocotyl sections of Vigna unguiculata. Physiol. Plant. 89: 693-698.
24. Mizuno, A. and Okamoto, H. 1982. Structure and function of the elongation sink in the stems of higher plants. II. Effects of acids and anoxia on the growth rate and the spatially separate electrogenic ion pumps. Plant Cell Environ. 5: 131-135.
25. Nakahori, K., Katou, K. and Okamoto, H. 1991. Auxin changes both the extensibility and the yield threshold of the cell wall of Vigna hypocotyl. Plant Cell Physiol. 32: 121-129.
26. Okamoto, A. 1994. Biomechanics of Cell Wall Yielding. Dr. Thesis to Graduate School of Integrated Science, Yokohama City University.
27. Okamoto, A. and Okamoto, H. 1995. Two proteins regulate the cell wall extensibility and the yield threshold in glyceriated hollow cylinders of cowpea hypocotyl. Plant Cell Environ. 18: 827-830.
28. Okamoto, H., Katou, K., Mizuno, A. Kojima, H., Matsumura, Y. and Ono, Y. 1984. Osmotic and hormonal control of electrogenic ion pumps and growth in pea hypocotyl segments by pressurized intra-organ perfusion. In W. J. Cram, K. Janacek, R. Ribova and K. Siegler, eds., Membrane Transport in Plants. Academia Praha, Praha, pp. 447-452.
29. Okamoto, H., Liu, Q., Nakahori, K. and Katou, K. 1989a. Control of elongation growth under osmotic stress. In M. Tazawa, M. Katsumi, Y. Masuda and H. Okamoto, eds., Plant Water Relations under Stress. Myu K.K., Tokyo, pp. 323-330.
30. Okamoto, H., Liu, Q., Nakahori, K. and Katou, K. 1989b. A pressure jump method as a new tool in growth physiology for monitoring physiological wall extensibility and effective turgor. Plant Cell Physiol. 30: 979-985.
31. Okamoto, H., Miwa, C., Masuda, T., Nakahori, K. and Katou, K. 1990. Effects of auxin and anoxia on the cell wall yield threshold determined by negative pressure jumps in segments of cowpea hypocotyl. Plant Cell Physiol. 31: 783-788.
32. Okamoto, H. and Okamoto, A. 1994. The pH-dependent yield threshold of the cell wall in glycerinated hollow cylinder (in vitro system) of cowpea hypocotyl. Plant Cell Environ. 17: 979-983.
33. Passioura, J.B. and Fry, S.C. 1992. Turgor and cell expansion: beyond the Lockhart equation. Aust J. Plant Physiol. 19: 565-576.
34. Ray, P.M., Green, P.B. and Cleland, R.E 1972. Role of tugor in plant cell growth. Nature 239: 163-164.
35. Wyn Johnes, R.G. and Pritchard, J. 1989. Stress, membranes and cell walls. In H.G. Jones, T.J. Flowers and M.B. Jones, eds., Plant under Stress. Cambridge University Press, Cambridge, pp. 95-114.