HPLC coupled to a mass spectrometer (MS) was used for the analysis of galanthamine and lycorine in natural extracts of Leucojum aestivum and in their in vitro cultures grown with a precursor (ACC), inhibitors (AgNO(3), STS), or an absorber (KMnO(4)) of ethylene. The maximum galanthamine (0.002%) and lycorine (0.02%) concentrations in tissue cultures were obtained in the presence of KMnO(4). GCMS was used to investigate underivatized alkaloid mixtures from L. aestivum. Seven alkaloids were identified in in vivo bulbs. KMnO(4) led to the highest diversity of alkaloids in tissue culture extracts.
Cytokinins are growth regulators that stimulate cell division and control morphogenesis in plants, however their role in regulating secondary metabolism is not well studied. The influence of various cytokinins (benzyladenine, zeatin, kinetin, meta‐topolin, thidiazuron) and culture systems (solid and temporary immersion RITA® system) on the quality Leucojum aestivum plant regenerated from somatic embryos was investigated. The largest number of regenerated plants (181.6 and 168.8) was obtained from the embryos cultivated on media enriched with meta‐topolin and benzyladenine. Thidiazuron and meta‐topolin led to the highest number of normally developed plants (94.8 and 90.6). The random amplified polymorphic DNA analysis of in vitro and in vivo plants showed four clusters of similarity. The highest biomass (growth index: 2.49) was obtained with the temporary immersion RITA® system. Alkaloid extracts were analyzed by LC‐MS, leading to the quantification of galanthamine and lycorine both in plant materials and in liquid media. The highest contents of galanthamine (0.05% dry weight) were observed in plants cultivated in the presence of thidiazuron in bioreactor system. Galanthamine was accumulated (highest content 0.05% dry weight) in plants cultivated in the presence of thidiazuron in bioreactor system whereas lycorine was synthetized mainly in plants cultivated on solid media.
The influence of ethylene on in vitro morphogenesis of Leucojum aestivum and galanthamine accumulation was studied. Calli were cultivated on Murashige and Skoog (MS) medium supplemented with 25 lM 4-amino-3,5,6-trichloropicolinic acid (picloram) and 0.5 lM benzyladenine (BA). During incubation under these conditions, callus cultures produced ethylene (9.5 nL/g fresh weight: F.W.) whereas no ethylene was found in somatic embryos cultivated on medium supplemented with 0.5 lM a-naphthalene acetic acid (NAA) and 5 lM zeatin. Application of the precursor of ethylene 1-aminocyclopropane-1-carboxylic acid (ACC) increased ethylene production in both cultures, and decreased callus growth by a factor of 1.2, whereas callus growth was enhanced by a factor of 1.1 in the presence of an inhibitor of ethylene silver nitrate (AgNO 3 ) or by a factor of 1.2 with an absorbent potassium permanganate (KMnO 4 ). ACC enhanced the induction of somatic embryos and the development of globular embryos. Removal of ethylene by KMnO 4 during somatic embryogenesis led to the development of plants with greater length. Silver thiosulphate (STS) induced galanthamine production in callus cultures (0.1% dry weight), whereas ACC induced galanthamine production in somatic embryo cultures (2% dry weight).
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