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1998 | 20 | 3 |

Tytuł artykułu

The role of calcium ions in freezing injuries of winter oilseed rape leaves. Effects of calcium channel blockers and mimesis by calcium ionophore

Autorzy

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Calcium ionophore A23187 allowing for a calcium ion influx from an apoplast to a cytoplasm, mimicked symptoms of the frost-induced injuries in winter oilseed rape leaves, as estimated by the conductivity method. Both calcium ionophore and freezing treatment induced degradation of phosphatidylcholine. On the other hand lanthanum and gadolinum ions as well as verapamil, the inhibitors of calcium ion channels, decreased the degree of the frost-induced injuries. Lanthanum ions prevented the frost-induced degradation of PC. It is proposed that freezing alters the functioning of calcium ion channels which results in calcium ion influx into a cytosol. This in turn may lead to a degradation of cell membranes.

Wydawca

-

Rocznik

Tom

20

Numer

3

Opis fizyczny

p.257-261,fig.

Twórcy

autor
  • Warsaw University, Pawinskiego 5a, 02-107 Warsaw, Poland

Bibliografia

  • Allen, C.F., Good, P., Davis, H.F., Chisum, P., and Fowler, S.D. 1966. Methodology for the separation of plant lipids and application to spinach leaf and chloroplast lamellae. J. Am. Oil Chem. Soc. 43: 223–230.
  • Allen, G.J., and Sanders, D. 1994. Two voltage-gated, calcium release channels coreside in the vacuolar membrane of broad bean guard cells. Plant Cell, 6: 685–694.
  • Bossen, M.E., Dassen, H.D., Kendrick, R.E., and Rodenberg, W.J. 1988. The role of calcium ions in phytochrome-controlled swelling of etiolated wheat (Triticum aestivum L.) protoplasts. Planta, 174: 94–101.
  • Brauer, D., Nungesser, E., Maxwell, R.J., Shubert, C., and Tu, S.I. 1990. Evidence for subcellular localization of Ca-stimulated phospholipase D from maize root. Plant Physiol., 92: 672–678.
  • Campbell, A.K. 1985. Manipulation of intracellular Ca²⁺. In: Intacellular Calcium: Its Universal Role as Regulator. J. Wiley & Sons, Ltd, Chichester, U.K.: 30–37.
  • Flint, H.L., Boyce, B.A., and Brattie, D.J. 1967. Index of injury a useful expression of freezing injury to plant tissues as determined by electrolytic method. Can. J. of Plant Sci., 67: 229–239.
  • Haley, H., Russel, A.J., Wood, N., Allan, A.C., Knight, M., Campbell, A.K., and Trewavas, A.J. 1995. Effects of mechanical signalling on plant cytosolic calcium. Proc. Natl. Acad. Sci. USA, 92: 4124–4128.
  • Kacperska-Palacz, A., and Długokęcka, E. 1971. Metodyka przeprowadzania oceny odporności roślin na zamarzanie. Wiadomości Botaniczne, X (1): 79–80.
  • Kates, M., and Sastry, P. S. 1969. Phospholipase D. Methods in Enzymology, 14: 197–203.
  • Knight, M.R., Campbell, A.K., Smith, S.M., and Trewavas A.J. 1991. Transgenic plants aequorin reports the effect of touch and cold-shock and elicitors on cytoplasmic calcium. Nature, 352: 524–526.
  • Maciejewska, U., and Kacperska, A. 1987. Changes in the levels of oxidized and reduced pyridine nucleotides during cold acclimation of winter rape plants. Physiol. Plant., 69: 687–696.
  • Minorsky, P.V. 1985. An heuristic hypothesis of chilling injuries in plants: a role for calcium as the primary physiological transducer of injury. Plant, Cell, Environ., 8: 75–95.
  • Minorsky, P.V., and Spanswick, R.M. 1989. Electrophysiologicl evidence for a role for calcium in temperature sensing by roots of cucumber seedlings. Plant, Cell, Environ., 12: 137–143.
  • Monroy, A. F., Sarhan, F., and Dhindsa, R.S. 1993. Cold-induced changes in freezing tolerance, protein phosphorylation and gene expression: Evidence for a role of calcium. Plant Physiol., 102: 1227–1235.
  • Monroy, A.F., and Dhindsa, R.S. 1995. Low-temperature signal transduction: induction of cold acclimatio-specific genes of alfalfa by calcium at 25 °C. Plant Cell, 7: 321–331.
  • Palta, J.P., and Li, P.H. 1978. Cell membrane properties in relation to freezing injury. In: Plant Cold Hardiness and Freezing Stress, ed. by P.H. Li, and A. Sakai, Academic Press, New York: 93–115.
  • Palta, J.P., Jessen, K.G., and Li, P.H. 1982. Cell membrane alterations following a slow freeze-thaw cycle: ion leakage, injury and recovery. In: Plant Hardiness and Freezing Stress, ed. by P.H. Li, and A. Sakai, Academic Press, New York: 221–242.
  • Piotrowska, G., and Kacperska, A. 1990. Utility of leaf discs cultured in vitro for studies on frost resistance. Plant Cell Tiss. Org. Cult., 22: 21–26.
  • Rincon, M., and Hanson, J.B. 1986. Controls of calcium ion fluxes in injuried or shocked corn root cells: Importance of proton pumping and membrane potential. Physiol. Plant., 67: 576–583.
  • Sikorska, E., and Kacperska-Palacz, A. 1980. Frost-induced phospholipid changes in cold-acclimated rape leaves. Physiol. Plant., 48: 201–206.
  • Sikorska, E., and Kacperska, A. 1982. Modification of phospholipase D activity during frost hardening of winter rape plants. In: Biochemistry and Metabolism of Plant Lipids, ed. by J.F.G.M. Wintermans, and P.J.C. Kuiper, Elsevier Biomedical Press, New York: 415–418.
  • Smoleńska, G., and Kuiper, P.J.C. 1977. Effect of low temperature upon lipid and fatty acid composition of roots and leaves of winter rape plants. Physiol. Plant. 41: 29–35.
  • Steponkus, P.L. 1984. Role of the plasma membrane in freezing injury and cold acclimation. Ann. Rev. Plant Physiol., 35: 543–584.
  • Storey, R., and Wyn Jones, R.G. 1977. Quaternary ammonium compounds in plant in relation to salt resistance. Phytochemistry, 16: 447–453.
  • Thompson, W. W., Platt, K.A., Campbell, N. 1973. The use of lanthanum to delineate the apoplastic continuum in plants. Cytobios, 8: 57–62.
  • Yoshida, S. 1978. Phospholipid degradation and its control during freezing of plant cells. In: Cold Hardiness and Freezing Stress. Mechanism and Crop Implications, ed. by P.H. Li, A. Sakai, Academic Press, New York: 117–138.
  • Yoshida, S. 1979. Freezing injury and phospholipid degradation in vivo in woody plant cells. II. Regulatory effects of divalent cations on activity of membrane-bound phospholipase D. Plant Physiol., 64: 247–273.
  • Wang, X. 1997. Molecular analysis of phospholipase D. TiBS, 2 (7): 261–264.
  • Ward, J.M., Zhen-Ming Pei, and Schroeder, J.I. 1995. Roles of ion channels in initiation of signal transduction in higher plants. Plant Cell, 7: 833–844.
  • Wilson, R.F., and Rinne, R.W. 1976. Effect of freezing and cold storage on phospholipids in developing soybean cotyledons. Plant Physiol., 57: 270–273.

Typ dokumentu

Bibliografia

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