Abstract
In flower buds of the white flowering mutant W19 of Petunia hybrida four biologically active dihydroflavonol intermediates-dihydroquercetin-7-glucoside, dihydroquercetin-4′-glucoside, dihydroquercetin, and dihydrokaempferol-7-glucoside-are accumulated. When dihydroquercetin was supplied to in vitro cultured corollas of the white flowering mutant W18, a mixture of cyanidin and delphinidin glycosides was produced, cyanidin-3-glucoside being the major pigment. The quantity of dihydroquercetin accumulated in W19 is very small, but this compound appears to be a more direct precursor of anthocyanins than the glucosides of dihydrokaempferol and dihydroquercetin. The conditions for pigment synthesis in W18 were optimalized. The quantitative uptake of dihydroquercetin was also studied. It was demonstrated that ca. 1/3 of the quantity present in the culture solution entered the corolla. From the absorbed dihydroquercetin only 14% was converted into anthocyanins. Complementation experiments to determine the biosynthetic sequence of the anthocyanin genes An1, An2, and An3 indicated that the genes An1 and An2 are indistinguishable by this technique.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Abbreviations
- DHQ:
-
(+) dihydroquercetin
References
Bhatia, I.S., Singh, I., Bajaj, K.L.: A new chromogenic reagent for the detection of phenolic compounds on thin-layer plates. J. Chromat. 79, 350–352 (1973)
Birkofer, L., Kaiser, C.: Neue Flavonglycoside aus Petunia hybrida. Z. Naruforsch. 17b, 359–368 (1962)
Fritsch, H., Grisebach, H.: Biosynthesis of cyanidin in cell cultures of Haplopappus gracilis. Phytochemistry 14, 2437–2442 (1975)
Harrison, B.J., Stickland, R.G.: Precursors and genetic control of pigmentation. 2. Genotype analysis of pigment controlling genes in acyanic phenotypes in Antirrhinum majus. Heredity 33, 112–115 (1974)
Jurd, L.: The acid catalysed conversion of 3-hydroxyflavanones to anthocyanidins. Phytochemistry 8, 2421–2423 (1969)
Kho, K.F.F., Bennink, G.J.H., Wiering, H.: Anthocyanin synthesis in a white flowering mutant of Petunia hybrida by a complementation technique. Planta 127, 271–279 (1975)
Klein, A.O., Hagen, C.W., Jr.: Anthocyanin production in detached petals of Impatiens balsamina L. Plant Physiol. 36, 1–9 (1961)
Mabry, T.J., Markham, K.R., Thomas, H.B.: The systematic identification of flavonoids. Berlin-Heidelberg-New York: Springer 1970
Mansell, R.L., Hagen, C.W., Jr.: Metabolism of some exogeneous anthocyanins by deteched petals of Impatiens balsamina L. Amer. J. Bot. 53, 875–882 (1966)
Ribéreau-Gayon, P.: Plant phenolics. Edinburgh: Oliver and Boyd 1972
Stickland, R.G., Harrison, B.J.: Precursors and genetic control of pigmentation. I. Induced biosynthesis of pelargonidin, cyanidin and delphinidin in Antirrhinum majus. Heredity 33, 108–112 (1974)
Ville, A., Pacheco, H.: Biogénèse des pigments végétaux II. sur le biogénèse des flavanones et des flavanonols de Robinia pseudoacacia, Prunus avium et Prunus malaheb. Bull. Soc. Chim. Biol. 49, 657–671 (1967)
Wiering, H.: Genetics of flower colour in Petunia hybrida Hort. Genen Phaenen 17, 117–134 (1974)
Wiering, H., de Vlaming, P.: Glycosylation and methylation patterns of anthocyanins in Petunia hybrida. I. The gene Gf. Genen Phaenen 16, 35–50 (1973)
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Kho, K.F.F., Bolsman-Louwen, A.C., Vuik, J.C. et al. Anthocyanin synthesis in a white flowering mutant of Petunia hybrida . Planta 135, 109–118 (1977). https://doi.org/10.1007/BF00387158
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00387158