The observation that upon elicitation cell suspension cultures of Eschscholtzia california showed a decrease of dihydromacarpine with a concomittant increase of macarpine led to the discovery of a novel enzyme which catalyzes the oxidation of dihydrobenzophenanthridines in the presence of oxygen. The enzyme was enriched approx. 70-fold. It has a pH-optimum of 7.0, an isoelectric point at pH 8.8, molecular weight of 56 kD and shows a high degree of substrate specificity. The enzyme obviously catalyzes the terminal step in the formation of benzophenanthridine alkaloids containing methylene dioxy substitutions in rings A and D.
A new enzyme, (S)-norlaudanosoline synthase, which catalyses the synthesis of (S)-norlaudanosoline from dopamine and 3,4-dihydroxyphenylacetaldehyde was isolated from the soluble protein extract of ESCHSCHOLTZIA TENUIFOLIA cell suspension cultures and purified approximately 40-fold. The apparent molecular weight of the enzyme is 15 500 Dalton. The pH optimum is 7.8, temperature optimum 40 degrees C, apparent K (M) values for dopamine and dihydroxyphenyl-acetaldehyde are 1.5 mM and 0.7 mM respectively. The synthase shows high substrate specificity in that only the phenylacetaldehydes are transformed but not the phenylpyruvates. No apparent cofactor requirement could be demonstrated. By means of isoelectric focusing and disc-gel electrophoresis evidence was obtained for the existence of four norlaudanosoline synthase isoenzymes, none of which catalyses the reaction of dopamine with 3,4-dihydroxyphenylpyruvate. These enzymes are responsible for the synthesis of (S)-norlaudanosoline, the key intermediate in the formation of isoquinoline alkaloids occurring in the plant kingdom.
Chrysanthemum species are grown both as ornamentals and for the production of pyrethrum. Recent increased production and breeding efforts have raised the need for the conservation of valuable germplasm. Chrysanthemum has been cryopreserved by controlled-rate-freezing as early as 1990. We report here deep-freezing of shoot tips of C. morifolium var. Escort by different technical procedures: controlled-rate-freezing, encapsulation/dehydration, ultra-rapid-freezing by the droplet method and vitrification. While vitrification yielded the highest shoot regeneration rates, the very simple droplet method was also successful in this respect. Droplet freezing was successfully performed with nine cultivars. Our results open the door to the successful use of alternative methods if one method fails to cryopreserve a variety. Furthermore, it enables comparative investigations of genetic stability and cyro-injury to be carried out.
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