Initiation and culture of callus and cell suspensions of Cinchona ledgeriana and C. succirubra as well as the successful isolation and selection of a high-yielding alkaloid-forming strain derived from the leaf rachis of a C. succirubra plant are described. Results of feeding experiments with L-tryptophan using two different culture procedures are presented and discussed. Maximum alkaloid yields of up to 0.9% (based on dry weight) or 6.35 mg/l have been obtained.
Cell suspension cultures of Cinchona succirubra were cultivated in shake cultures and for the first time in airlift fermenters. Under both conditions L-tryptophan exerts a stimulatory effect on alkaloid formation. In this context the regulatory pattern of some shikimate pathway enzymes was investigated in non-supplemented and tryptophan supplemented Cinchona cell cultures. A remarkable increase of tryptophan decarboxylase (TDC) activity was observed in Cinchona cells under the influence of tryptophan. Apparently, like in some other indole alkaloid producing cell cultures, a high TDC activity is a prerequisite for alkaloid formation. Growth pattern and some enzyme activities of C. succirubra fermenter cultures at controlled and non-regulated pH levels were followed. Optimum growth and alkaloid formation were recorded under non-regulated (normal) pH conditions.
A procedure for the in vitro clonal mass propagation of shoots and plants of two Cinchona species derived from single shoot tips is described. Special attention is given to rooting problems of the shoots under in vitro conditions.
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