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Sandersonia aurantiaca Hook. (Christmas Bells): Micropropagation and in Vitro Production of Colchicine

  • J. F. Finnie
  • J. van Staden
Part of the Biotechnology in Agriculture and Forestry book series (AGRICULTURE, volume 37)

Abstract

Sandersonia aurantiaca Hook., also known as Christmas bells or the Chinese lantern lily, is a monotypic species (related to Gloriosa) which is endemic to southern Africa. The delicate, long-lasting flowers have a vase life of 2 to 3 weeks. The plant is currently enjoying an uprecedented demand worldwide and has potential as a high income earner for fresh cut flower growers (Warren 1993). Dahlgren et al. (1985) classify Sandersonia in the family Colchicaceae Tribus Iphegenieae (Fig. 1). Sandersonia was described by W.I. Hooker in Curtis’ Botanical Magazine in 1853, the plants that were described having been collected by John Sanderson, and thus Hooker named Sandersonia in his honour (Batten 1986). The name aurantiaca is from the Latin meaning yellow and scarlet.

Keywords

Vase Life Immature Ovule Dimethyl Silicone Monotypic Species Stern Length 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Batten A (1986) Flowers of southern Africa. Frandsen, SandtonGoogle Scholar
  2. Bellet P, Gaignault J-C (1985) Gloriosa superba as a source of colchicine substances. Ann Pharm Fr 43: 345–347Google Scholar
  3. Brossi A, Kerekes P (1984) US Patent Applied. 601, 314. Chem Abstr 103: 6576Google Scholar
  4. Brundell DJ, Reyngoud JL (1985) Observations on the development and culture of Sandersonia. Acta Hortic 177: 439–447Google Scholar
  5. Dahlgren RMT, Clifford HT, Yeo PF (1985) The families of the monocotyledons. Springer, Berlin Heidelberg New YorkCrossRefGoogle Scholar
  6. Duncan G (1992) Clivias in Kyushu and Welwitschias in Kyoto. South Africa’s flora shines in Japan. Veld Flora (Sept): 76–77Google Scholar
  7. Dyer RA (1976) The genera of southern african flowering plants, vol 2. Gymnosperms and angiosperms. Department of Agriculture and Technical Services, PretoriaGoogle Scholar
  8. Eigsti OJ, Dustin P (1955) Colchicine in agriculture, medicine, biology and chemistry, Iowa State College Press, AmesGoogle Scholar
  9. Evans DA, Tanis SP, Hart DJ (1981) A convergent total synthesis of (±) colchicine and (±) desacetamidoisocolchicine. J Am Chem Soc 103: 5813–5821CrossRefGoogle Scholar
  10. Finnie JF, van Staden J (1989) in vitro propagation of Sandersonia and Gloriosa. Plant Cell Tissue Organ Cult 19: 151–158Google Scholar
  11. Finie JF, van Staden J (1991) Isolation of colchicine from Sandersonia aurantiaca and Gloriosa superba. Variation in the alkaloid levels of plants grown in vivo. J Plant Physiol 138: 691–695CrossRefGoogle Scholar
  12. Finnie JF, van Staden J (1994) Gloriosa superba L. (Flame Lily): Micropropagation and in vitro production of colchicine. In: Bajaj YPS (ed) Biotechnology in agriculture and forestry, vol 26. Medicinal and aromatic plants VI. Springer, Berlin Heidelberg New York, pp 146–166Google Scholar
  13. Hayashi T, Yoshida K, Sano K (1988) Formation of alkaloids in suspension-cultured Colchicum autumnale. Phytochemistry 27: 1371–1374CrossRefGoogle Scholar
  14. Kinnersley AM, Dougal DK (1980) Correlation between nicotine content of tobacco plants and callus cultures. Planta 149: 205–206CrossRefGoogle Scholar
  15. Kurz WGW, Constabel F (1985) Aspects affecting biosynthesis and biotransformation of secondary metabolites in plant cell cultures. CRC Crit Rev Biotechnol 2: 105–118CrossRefGoogle Scholar
  16. Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plant 15: 473–497CrossRefGoogle Scholar
  17. Narain P, Raina SN (1975) Cytological assay of C-mitotic potency of colchicine obtained from Gloriosa superba L. Cytologia 40: 751–757Google Scholar
  18. Palmer E (1985) The South African herbal. Tafelberg, Cape TownGoogle Scholar
  19. Pinol MT, Palazon J, Altabella T, Cusido R, Serrano M (1985) Effect of auxin on alkaloids, K’ and free amino acid content in cultured tobacco callus. Physiol Plant 65: 299–304Google Scholar
  20. Santavy F (1950) Isolation of new substances from the flowers and pericarps of meadow saffron (Colchicum autumnale L.). Collect Czech Chem Commun 15: 552–569Google Scholar
  21. Santavy F (1980) Chemotaxonomy of plants producing colchicine alkaloids. Acta Hortic 96: 111–114Google Scholar
  22. Sasse F, Heckenberg U, Berlin J (1982) Accumulation of ß-carboline alkaloids and serotonin by cell cultures of Peganum harmala L. I. Correlation between plant and cell cultures and influence of medium constituents. Plant Physiol 69: 400–404Google Scholar
  23. Seifert G (1979) The influence of ecological factors on the content of colchicine in the meadow-saffron (Colchicum autumnale L.). Herba Pol 25: 167–174Google Scholar
  24. Tjia B (1987) New crops to consider for New Zealand and Australia to enter the world market. Department of Ornamental Horticulture, University of Florida, GainesvilleGoogle Scholar
  25. Wagner H, Hikino H, Farnsworth NR (1988) Economic and medicinal plant research, vol 2. Academic Press, LondonGoogle Scholar
  26. Warren A (1992) Culture notes. Sandersonia. Grower Talks (Nov): 21Google Scholar
  27. Warren A (1993) Sandersonia family: Liliaceae genus, species: Sandersonia aurantiaca. Flora-Culture Int (July/Aug): 53Google Scholar
  28. Watt JM, Breyer-Brandwijk MG (1962) The medicinal and poisonous plants of southern and eastern Africa, 2nd edn. Livingstone, EdinburghGoogle Scholar
  29. Wildman WC, Pursey BA (1968) Colchicine and related compounds. Alkaloids 11: 407–457Google Scholar
  30. Yoshida K, Hayashi T, Sano K (1988a) Colchicine precursors and the formation of alkaloids in suspension-cultured Colchicum autumnale. Phytochemistry 27: 1375–1378CrossRefGoogle Scholar
  31. Yoshida K, Hayashi T, Sano K (1988b) Colchicoside in Colchicum autumnale bulbs. Agric Biol Chem 52: 593–594CrossRefGoogle Scholar
  32. Zenk MH, El-Shagi H, Schulte U (1975) Anthraquinine production by cell suspension cultures of Morinda citrtfolia. Planta Med 29: 79–101CrossRefGoogle Scholar
  33. Zyrd JP (1979) Colchicine-induced resistance to antibiotic and amino-acid analogue in plant cell cultures. Experientia 35: 1168CrossRefGoogle Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1996

Authors and Affiliations

  • J. F. Finnie
  • J. van Staden
    • 1
  1. 1.NU Research Unit for Plant Growth and DevelopmentUniversity of NatalPietermaritzburgRepublic of South Africa

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