Comparative study on the production and accumulation of unusual phenylpropanoids in plants andin vitro cultures ofCoreopsis tinctoria andC. lanceolata
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Callus and root organ cultures ofCoreopsis tinctoria andC. lanceolata have been established in liquid nutrition medium. Their capacity to accumulate unusual phenylpropanoids was compared with that of seedlings and whole plants. Corresponding callus cultures accumulated the phenylpropanoids only in traces. In contrast to the unorganized callus cultures the root organ cultures accumulated the same pattern of phenylpropanoids as their parent plants. A root organ culture ofC. tinctoria accumulated the compounds up to the same amounts as the root of the whole plant.
KeywordsCells, cultured Coreopsis lanceolata Coreopsis tinctoria Phenylpropanoids
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- 1.Bohlmann F, Zdero Ch. Über die Inhaltsstoffe vonCoreopsis nuecensis A. Heller. Chem Ber 1968;101:3243–54.Google Scholar
- 2.Bohlmann F, Zdero Ch. Über die Inhaltstoffe vonCoreopsis gigantea. Chem Ber 1969;102:1691–7.Google Scholar
- 3.Bohlmann F, Ahmed M, Grenz M, King RM, Robinson H. Bisabolene derivatives and other constituents fromCoreopsis species. Phytochemistry 1983;22:2858–9.Google Scholar
- 4.Bohlmann F, Baneryee S, Jakupovic J, King RM, Robinson H. Bisabolene derivatives and acetylenic compounds from PeruvianCoreopsis species. Phytochemistry 1985;24:1295–7.Google Scholar
- 5.Lewis NG, Dubelsten P, Eberhardt E, Yamamoto E, Towers GHN. TheE/Z isomerization step in the biosynthesis ofZ-coniferyl alcohol inFagus grandiflora. Phytochemistry 1987;26:2729–34.Google Scholar
- 6.Murashige T, Skoog G. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plant 1962;15:473–97.Google Scholar
- 8.Reichling J, Martin R, Thron U. Production and accumulation of phenylpropanoids in tissue and organ cultures ofPimpinella anisum. Z Naturforsch 1988;43c:42–6.Google Scholar
- 9.Thron U, Martin R, Reichling J. Rare eugenol andZ-coniferyl alcohol derivatives from three species ofCoreopsis. Z Naturforsch 1989;44c:7–11.Google Scholar