ABSTRACT
A total of 19 different species belonging to the genera Asperula, Galium, Rubia and Sherardia were taken into cell culture. All species, differentiated plants as well as tissue cultures, produced anthraquinones in differing yields. Cells were grown in a basal medium containing 7 differently substituted phenoxyacetic acids, as well as 1-naphthaleneacetic acid, all at 10(-5) M concentration. The effectors supporting highest pigment production in each culture were selected and, in the presence of the selected effector, the sucrose content of the medium was then varied from 1 to 14%. Anthraquinone formation was thus optimized for each individual species, but no general pattern, either of effector quality or of sucrose concentration, emerged. In 17 out of 19 cases secondary product formation in optimized cell cultures surpassed that of differentiated plants. The highest anthraquinone yield was observed with Galium verum (1.7 g/l) and the highest concentration achieved with Rubia fruticosa (20% of dry weight).
ABSTRACT
Cell suspension cultures of Catharanthus roseus (L.) G. Don were grown under S-auxotrophic (1.8 mM sulfate) and under S-heterotrophic (0.5 and 1.0 mM cysteine or methionine) conditions. The development of activity of the thiol sulfotransferases was followed during the complete growth period. Under auxotrophic growth, an NADPH-dependent S: sulfotransferase and a GSH-dependent S: sulfotransferase developed identically, whereas under heterotrophic growth, differences in the amount of enzymes and in the time course of their development occurred. The NADPH-dependent sulfotransferase appeared "repressed" by the S-amino acids but the GSH-dependent enzyme was "derepressed." In that phenomenon, the development of the GSH sulfotransferase paralleled the development of the ATP-sulfurylase (EC 2774) activity of the cells.