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  • Allan E.F. & Hepler P.K. (1989) Calmodulin and calcium-binding proteins. In The Biochemistry of Plants, Vol. 15 (ed. A.Marcus), pp. 455484. Academic Press, New York .
  • Allan E.F. & Trewavas A.J. (1987) The role of calcium in metabolic control. In The Biochemistry of Plants, Vol. 12 (eds P. K.Stumpf & E. E.Conn), pp. 117149. Academic Press, New York .
  • Ballarin-Denti A. & Cocucci M. (1979) Effects of abscisic acid, gibberellic acid and fusicoccin on the transmembrane potential during early phases of germination in radish (Raphanus sativus L.) seeds. Planta 146, 1923.
  • Behra R. (1993) In vitro effects of cadmium, zinc and lead on calmodulin-dependent actions in Oncorhynchus mykiss, Mytilus sp. & Chlamydomonas reinhardtii. Archives of Environmental Contamination and Toxicology 24, 2127.
  • Blowers D.P. & Trewavas A.J. (1988) Second messengers: their existence and relationship to protein kinase. In Second Messenger in Plant Growth and Development, Vol. 6 (eds W. S.Boss & D. J.Morrè), pp. 128. Alan R Liss Inc, New York .
  • Charbonneau H. & Cormier M. (1979) Purification of plant calmodulin by fluphenazine-Sepharose affinity chromatography. Biochemical and Biophysical Research Communications 90, 10391047.
  • Clijster H. & Van Assche F. (1985) Inhibition of photosynthesis by heavy metals. Photosynthesis Research 7, 3140.
  • Cocucci M. (1984) Increase in calmodulin level in the early phases of radish seed (Raphanus sativus L.) germination. Plant, Cell and Environment 7, 215221.
  • Cocucci M. & Ballarin-Denti A. (1981) Effects of polar lipids on ATPase activity of membrane preparation from germinating radish seeds. Plant Physiology 68, 377381.
  • Cocucci S. & Cocucci M. (1977) Effects of ABA, GA3 and FC on the development of potassium uptake in germinating radish seeds. Plant Science Letters 10, 8595.
  • Cocucci M. & Negrini N. (1988) Changes in the level of calmodulin and of a calmodulin inhibitor in the early phases of radish (Raphanus sativus L.) seed germination. Plant Physiology 88, 910914.
  • Cocucci M. & Negrini N. (1989) Calmodulin in metabolic reactivation of germinating seeds. In Plant Membrane Transport: the Current Position (eds J.Dainty, M. I.DeMichelis, E.Marrè & F.Rasi-Caldogno), pp. 355360. Elsevier Science Publishers, Amsterdam .
  • Cocucci M., Marrè E., Ballarin-Denti A. & Scacchi A. (1979) Characteristics of fusicoccin-induced changes of transmembrane potential and ion uptake in maize root segments. Plant Science Letters 6, 143156.
  • De Knecht J.A., van Dillen M., Koevoets P.L.M., Schat H., Verkleij J.A.C. & Ernst W.H.O. (1994) Phytochelatins in cadmium-sensitive and cadmium-tolerant Silene vulgaris. Plant Physiology 104, 255261.
  • De Vos C.H.R., Vonk M.J., Vooijs R. & Schat H. (1992) Glutathione depletion due to copper-induced phytochelatin synthesis causes oxidative stress in Silene cucubalus. Plant Physiology 98, 853858.
  • Galli U., Schüepp H. & Brunold C. (1996) Thiols in cadmium- and copper-treated maize (Zea mays L.) Planta 198, 139143.
  • Grill D. & Esterbauer H. (1973) Quantitative Bestimmung wasserlöslicher Sulfydrylverbindungen in gesunden und geschädigten Nadeln von Picea abies. Phyton 15, 87101.
  • Harvey H.J., Venis M.A. & Trewavas A.J. (1989) Partial purification of a protein from maize (Zea mays) coleoptile membranes binding the Ca2+-channel antagonist verapamil. Biochemical Journal 257, 95100.
  • Hernàndez-Nistal J., Rodriguez D., Nicolas G. & Alzodaro J (1989) Abscisic acid and temperature modify the level of calmodulin in embryonic axes of Cicer arietinum L. Physiologia Plantarum 80, 891894.
  • Hinkle P.M., Kinsella P.A. & Osterhoudt K.C. (1987) Cadmium uptake and toxicity via voltage-sensitive calcium channels. The Journal of Biological Chemistry 262. 1633316337.
  • Howden R., Goldsbrough P.B., Andersen C.R. & Cobbett C.S. (1995) Cadmium-sensitive, cadl mutants of Arabidopsis thaliana are phytochelatin deficient. Plant Physiology 107, 10591066.
  • Kakiuchi S., Suboe K., Yamazachi R., Kambayashi J., Sakon & Kosaki G. (1981) Lack of tissue specificity of calmodulin: a rapid and high-yield purification method. FEBS Letters 126, 203207.
  • Karez C.S., Allemand D., De Renzis G., Gnassia-Barelli M., Romeo M & Puiseux-Dao S. (1990) Ca-Cd interaction in the prymnesiophyte Cricosphaera elongata. Plant, Cell and Environment 13, 483487.
  • Kaus H. (1987) Some aspects of calcium-dependent regulation in plant metabolism. Annual Review of Plant Physiology 38, 4772.
  • Kesseler A. & Brand M.D. (1995) The mechanism of the stimulation of state 4 respiration by cadmium in potato tuber (Solanum tuberosum) mitochondria. Plant Physiology and Biochemistry 33, 519528.
  • Klee C.B., Crouch T.H. & Richman P.G. (1980) Calmodulin. Annual Review of Biochemistry 49, 489515.
  • Kneer R. & Zenk M.H. (1992) Phytochelatins protect plant enzymes from heavy metal poisoning. Phytochemistry 31, 26632667.
  • Laemmli H.K. (1970) Cleavage of structural proteins during the assembly of the head of bacteriofage T4. Nature 227, 680685.
  • Meharg A.A. (1994) Integrated tolerance mechanisms: constitutive and adaptative plant responses to elevated metal concentrations in the environment. Plant, Cell and Environment 17, 989993.
  • Malhó R., Read N.D., Trewavas A.J. & Salomé Pais M. (1995) Calcium channel activity during pollen tube growth and reorientation. The Plant Cell 7, 11731184.
  • Negrini N., Rivetta A. & Cocucci M. (1995) Calmodulin levels in radish (Raphanus sativus L.) seeds germinating at low calcium availability induced by EGTA treatments. Plant, Cell and Environment 18, 159167.
  • Potter J.D., Strang-Brown P., Walker P.L. & Iida S. (1983) Ca2+ binding to Calmodulin. Methods in Enzymology 102, 135143.
  • Rauser W.E. (1995) Phytochelatins and related peptides. Structure, biosynthesis and function. Plant Physiology 109, 11411149.
  • Rengel Z. (1992) Disturbance of cell Ca2+ homeostasis as a primary trigger of A1 toxicity syndrome. Plant, Cell and Environment 15, 931938.
  • Roberts D.M. & Harmon A.C. (1992) Calcium-modulated proteins: targets of intercellular calcium signals in higher plants. Annual Review of Plant Physiology and Plant Molecular Biology 43, 375414.
  • Roberts D.M., Lukas T.J. & Watterson D.M. (1986) Structure, function and mechanism of action of calmodulin. CRC Critical Review in Plant Science 4, 311339.
  • Sandmann G. & Böger P. (1983) The enzymological function of heavy metals and their role in electron transfer processes in plants. In Encyclopedia of Plant Physiology, Vol. 15B: Inorganic Plant Nutrition (eds A.Lauchli & R. L.Bieleski), pp. 563596. Springer-Verlag, Berlin .
  • Schroeder I.I. & Thuleau P. (1991) Ca2+ channels in higher plant cells. The Plant Cell 3, 555559.
  • Shah K. & Dubey R.S. (1995) Effect of cadmium on RNA level as well as activity and molecular forms of ribonuclease in growing rice seedlings. Plant Physiology and Biochemistry 33, 577584.
  • Siegel N. & Haug A. (1983) Aluminum interaction with calmodulin. Evidence for altered structure and function from optical and enzymatic studies. Biochimica et Biophysica Acta 744, 3645.
  • Somashekaraiah B.V., Padmaja K. & Prasad A.R.K. (1992) Phytotoxicity of cadmium ions on germinating seedlings of mung bean (Phaseolus vulgaris): involvement of lipid peroxides in chlorophyll degradation. Physiologia Plantarum 85, 8589.
  • Steffens J.C. (1990) The heavy metal-binding peptides of plants. Annual Review of Plant Physiology and Plant Molecular Biology 41, 553575.
  • Thuleau P., Ward J.M., Ranjeva R. & Schroeder J.I. (1994) Voltage-dependent calcium permeable channels in the plasma membrane of higher plant cell. The EMBO Journal 13, 29702975.
  • Van Assche F. & Clijsters H. (1990) Effects of metals on enzyme activity in plants. Plant, Cell and Environment 13, 195206.
  • Verkleij J.A.C., Koevoets P., Van't Riet J., Bank R., Nijdam Y. & Ernst W.H.O. (1990) Poly ((-glutamylcysteinyl)glycines or phytochelatins and their role in cadmium tolerance of Silene vulgaris. Plant, Cell and Environment 13, 913921.
  • Vögeli-Lange R. & Wagner G.J. (1996) Relationship between cadmium, glutathione and cadmium-binding peptides (phytochelatins) in leaves of intact tobacco seedlings. Plant Science 114, 1118.
  • Wagner G.J. (1993) Accumulation of cadmium in crop plants and its consequences to human health. In Advances in Agronomy (ed. D. L.Sparks), pp. 173212. Academic Press, Inc., California .
  • Woolhouse H.W. (1983) Toxicity and tolerance in the responses of plants to metals. In Encyclopedia of Plant Physiology, Vol. 12C: Responses to the Chemical and Biological Environment (eds O. L.Lange, P. S.Nobel, C. B.Osmond & H.Ziegler), pp. 245300. Springer-Verlag, Berlin .
  • Yamagami K. & Tarayama H. (1981) Dynamics of calmodulin and cyclic AMP phosphodiesterase in plasma membranes of rat livers and ascites hepatomas. Biochimica et Biophysica Acta 677, 174183.