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Role of auxin and sucrose in the differentiation of sieve and tracheary elements in plant tissue cultures

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Abstract

The differentiation of sieve and tracheary elements was studied in callus culture of Daucus carota L., Syringa vulgaris L., Glycine max (L.) Merr., Helianthus annuus L., Hibiscus cannabinus L. and Pisum sativum L. By the lacmoid clearing technique it was found that development of the phloem commenced before that of the xylem. In not one of the calluses was differentiation of tracheary elements observed in the absence of sieve elements. The influence of indole-3-acetic acid (IAA) and sucrose was evaluated quantitatively in callus of Syringa, Daucus and Glycine. Low IAA levels resulted in the differentiation of sieve elements with no tracheary cells. High levels resulted in that of both phloem and xylem. IAA thus controlled the number of sieve and tracheary elements, increase in auxin concentration boosting the number of both cell types. Changes in sucrose concentration, while the IAA concentration was kept constant, did not have a specific effect on either sieve element differentiation, or on the ratio between phloem and xylem. Sucrose did, however, affect the quantity of callose deposited on the sieve plates, because increase in the sucrose concentration resulted in an increase in the amount of callose. It is proposed that phloem is formed in response to auxin, while xylem is formed in response to auxin together with some added factor which reaches it from the phloem.

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References

  • Alfieri, F.J., Evert, R.F. (1965) Seasonal phloem development in Pinus strobus. Am. J. Bot. 52, 626–627

    Google Scholar 

  • Aloni, R. (1976) Polarity of induction and pattern of primary phloem fiber differentiation in Coleus. Am. J. Bot 63, 877–889

    Google Scholar 

  • Aloni, R. (1979a) Role of auxin and gibberellin in differentiation of primary phloem fibers. Plant Physiol. 63, 609–614

    Google Scholar 

  • Aloni, R. (1979b) Evidence that IAA controls sieve-tube element differentiation in tissue culture. (Abstr.) Plant Physiol. 63, Supp. 99

    Google Scholar 

  • Aloni, R., Jacobs, W.P. (1977) The time course of sieve tube and vessel regeneration and their relation to phloem anastomoses in mature internodes of Coleus. Am. J. Bot. 64, 615–621

    Google Scholar 

  • Aloni, R., Sachs, T. (1973) The three-dimensional structure of primary phloem systems. Planta 113, 345–353

    Google Scholar 

  • Beslow, D.T., Rier, J.P. (1969) Sucrose concentration and xylem regeneration in Coleus internodes in vitro. Plant Cell Physiol. 10, 69–77

    Google Scholar 

  • Clark, A.E., Stone, B.A. (1963) Chemistry and biochemistry of β-1,3 glucans. Rev. Pure Appl. Chem. 13, 134–156

    Google Scholar 

  • Cronshaw, J., Anderson, R. (1971) Phloem differentiation in tobacco pith culture. J Ultrastruct. Res. 34, 244–259

    Google Scholar 

  • Cutter, E.G. (1978) Plant Anatomy: Experiment and interpretation. P.I. cells and tissues, 2nd edn. Edward Arnold, London

    Google Scholar 

  • Esau, K. (1945) Vascularization of the vegetative shoots of Helianthus and Sambucus. Am. J. Bot. 32, 18–29

    Google Scholar 

  • Esau, K. (1965) Vascular differentiation in plants. Holt, Rinehart and Winston, New York

    Google Scholar 

  • Eschrich, W. (1961) Untersuchungen über den Ab-und Aufbau der Callose. Z. Bot. 49, 153–218

    Google Scholar 

  • Evert, R.F. (1963) The cambium and seasonal development of the phloem in Pyrus malus. Am. J. Bot. 50, 149–159

    Google Scholar 

  • Gautheret, R.J. (1966) Factors affecting differentiation of plant tissues grown in vitro. In: Cell differentiation and morphogenesis, pp. 55–95, ed. Beermann, W., ed. North-Holland Publishing Co., Amsterdam

    Google Scholar 

  • Heimsch, C. (1951) Development of vascular tissues in barley roots. Am. J. Bot. 38, 523–537

    Google Scholar 

  • Houck, D.F., LaMotte, C.E. (1977) Primary phloem regeneration without concomitant xylem regeneration: its hormone control in Coleus. Am. J. Bot. 64, 799–809

    Google Scholar 

  • Jacobs, W.P. (1952) The role of auxin in differentiation of xylem around a wound. Am. J. Bot. 39, 301–309

    Google Scholar 

  • Jacobs, W.P. (1970) Regeneration and differentiation of sieve tube elements. Int. Rev. Cytol. 28, 239–273

    Google Scholar 

  • Jeffs, R.A., Northcote, D.H. (1966) Experimental induction of vascular tissue in an undifferentiated plant callus. Biochem. J. 101, 146–152

    Google Scholar 

  • Jeffs, R.A., Northcote, D.H. (1967) The influence of indol-3yl acetic acid and sugar on the pattern of induced differentiation in plant tissue culture. J. Cell. Sci. 2, 77–88

    Google Scholar 

  • LaMotte, C.E., Jacobs, W.P. (1963) A role of auxin in phloem regeneration in Coleus internodes. Dev. Biol. 8, 80–98

    Google Scholar 

  • Larson, P.R. (1975) Development and organization of the primary vascular system in Populus deltoides according to phyllotaxy. Am. J. Bot. 62, 1084–1099

    Google Scholar 

  • Miller, R.H. (1958) Morphology of Humulus lupulus. I. Developmental anatomy of the primary root. Am. J. Bot. 45, 418–431

    Google Scholar 

  • Minocha, S.C., Halperin, W. (1974) Hormones and metabolites which control tracheid differentiation, with or without concomitant effects on growth in cultured tuber tissue of Helianthus tuberosus L. Planta 116, 319–331

    Google Scholar 

  • Murashige, T., Skoog, F. (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Plant Physiol. 15, 473–497

    Google Scholar 

  • Peterson, C.A., Rauser, W.E. (1979) Callose deposition and photoassimilate export in Phaseolus vulgaris exposed to excess cobalt, nickel and zinc. Plant Phhysiol. 63, 1170–1174

    Google Scholar 

  • Rier, J.P., Beslow, D.T. (1967) Sucrose concentration and the differentiation of xylem in callus. Bot. Gaz. 128, 73–77

    Google Scholar 

  • Sjolund, R.D. (1968) Chloroplast development and cellular differentiation in tissue cultures of Streptanthus tortuosus Kell. (Cruciferae). Ph.D. Thesis,Univ. of Calif., Davis

    Google Scholar 

  • Sokal, R.R., Rohlf, F.J. (1969) Biometry, the principles and practice of statistic in biological research. Freeman and Co., San Francisco

    Google Scholar 

  • Steward, F.C., Mapes, M.O., Mears, K. (1958) Growth and organized development in cultured cells. II. Organization in cultures grown from freely suspended cells. Am. J. Bot. 45, 705–708

    Google Scholar 

  • Thompson, N.P., Jacobs, W.P. (1966) Polarity of IAA effect on sieve-tube and xylem regeneration in Coleus and tomato stems. Plant Physiol. 41, 673–682

    Google Scholar 

  • Wetmore, R.H., De Maggio, A.E., Rier, J.P. (1964) Contemporary outlook on the differentiation of vascular tissue. Phytomorphology 14, 203–217

    Google Scholar 

  • Wetmore, R.H., Rier, J.P. (1963) Experimental induction of vascular tissue in callus of angiosperms. Am. J. Bot. 50, 418–430

    Google Scholar 

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  1. Department of Botany, Tel Aviv University, The George S. Wise Faculty of Life Sciences, 69978, Tel Aviv, Israel

    Roni Aloni

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Aloni, R. Role of auxin and sucrose in the differentiation of sieve and tracheary elements in plant tissue cultures. Planta 150, 255–263 (1980). https://doi.org/10.1007/BF00390835

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  • DOI: https://doi.org/10.1007/BF00390835

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