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Theoretical and Applied Genetics

, Volume 61, Issue 2, pp 125–128 | Cite as

The chromosomal location of factors determining the presence of phenolic compounds in wheat (Triticum aestivum L.)

  • F. J. Vences
  • F. Vaquero
  • P. Garcia
  • C. Benito
Article
  • 37 Downloads

Summary

Using thin-layer chromatography and nulli-tetrasomic and ditellosomic series of Triticum aestivum L. cv. ‘Chinese Spring’, it has been possible to relate the phenolic compounds found in adult plant leaves and 12 day-old seedling leaves with the chromosomes or chromosome arms 1 B, 2 BL, 3 BL, 5 A, 6 AL, 7 B and 7 DS.

Key words

Triticum aestivum Wheat-phenolics-location 

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Literature

  1. Alston, R.E. (1965): Flavonoid chemistry of Baptisia: a current evaluation of chemical methods in the analysis of interspecific hybridization. Taxon 14, 268–274Google Scholar
  2. Bose, S. (1972): Comparison of wheat varieties on the basis of their relative phenolic contents. Hereditas 72, 159–168Google Scholar
  3. Dedio, W.; Kaltsikes, P.J.; Larter, E.N. (1969): A thin-layer chromatographic study of the phenolics of Triticale and its parental species. Can. J. Bot. 47, 1589–1593Google Scholar
  4. Fröst, S.; Holm, G. (1971): Thin-layer chromatographic studies of phenolic compounds in twenty varieties of barley. Hereditas 69, 25–34Google Scholar
  5. Fröst, S.; Holm, G. (1978): A new phylogenetic approach in barley. Hereditas 74, 304–308Google Scholar
  6. Fröst, S.; Holm, G. (1975): Variation of flavonoid pattern in Hordeum spontaneum and H. agriocrithon. Hereditas 80, 167–172Google Scholar
  7. Fröst, S.; Holm, G.; Asker, S. (1975): Flavonoid patterns and the phylogeny of barley. Hereditas 79, 133–142Google Scholar
  8. Fröst, S.; Holm, G. (1977): Intraspecific variation of flavonoid patterns in primitive spring wheats. Hereditas 86, 267–272Google Scholar
  9. Grant, W.F.; Whetter, J.M. (1970): The use of thin-layer chromatography in the separation of fluorescent compounds in Avena. Øiton 27, 1–5Google Scholar
  10. Harbone, J.B. (1964): Biochemistry of Phenolic Compounds. London, New York: Acad PressGoogle Scholar
  11. May, C.E.; Vickery, R.S.; Driscoll, C.J. (1973): Gene control in hexaploid wheat. In: Proc. IVth Intern. Wheat Symp. (eds. Sears, E.R.; Sears, L.M.S.), pp. 843–849. Missouri. USA: University of MissouriGoogle Scholar

Copyright information

© Springer-Verlag 1982

Authors and Affiliations

  • F. J. Vences
    • 1
  • F. Vaquero
    • 1
  • P. Garcia
    • 1
  • C. Benito
    • 1
  1. 1.Departamento de Genética, Facultad de BiologíaUniversidad ComplutenseMadridSpain

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