Studies on the biosynthesis of tropane alkaloids in Datura stramonium L. transformed root cultures. 1: The kinetics of alkaloid production and the influence of feeding intermediate metabolites

The factors by which the endogenous regulation of tropane-alkaloid biosynthesis may be effected have been examined in a transformed root culture of Datura stramonium. Pools of intermediates showed a subculture-related maximal accumulation, as did the enzyme activities by which they are synthesised a...

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Bibliographic Details
Published in:Planta 1991, Vol.183 (2), p.185-195
Main Authors: Robins, Richard J., Parr, Adrian J., Bent, Elizabeth G., Rhodes, Michael J.C.
Format: Article
Language:English
Subjects:
alcaloide
alcaloides
Alkaloids
Amines
apohyoscyamine
arginine decarboxylase
biosintesis
biosynthese
Biosynthesis
cultivo de tejidos
culture de tissu
datura stramonium
Enzymes
Flasks
genetic transformation
hyoscyamine
Kinetics
liasas
lyase
lyases
metabolism
metabolisme
metabolismo
Plant cells
Plant roots
Polyamines
roots
tissue culture
transformacion genetica
transformation genetique
Tropanes
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Summary:The factors by which the endogenous regulation of tropane-alkaloid biosynthesis may be effected have been examined in a transformed root culture of Datura stramonium. Pools of intermediates showed a subculture-related maximal accumulation, as did the enzyme activities by which they are synthesised and/or metabolised. The end-products, principally hyoscyamine and apohyoscyamine, in contrast, accumulated steadily in growing cultures. Feeding putrescine, agmatine or tropine did not enhance alkaloid accumulation, but rather may even have resulted in a lowering of hyoscyamine levels. Similarly, feeding precursors for the tropate moiety of hyoscyamine either had no influence or had a detrimental effect on hyoscyamine accumulation. Under some feeding conditions, intermediates in the pathway from N-methylputrescine up to and including tropine accumulated up to 40-fold. Little effect on early intermediates was found, however, when tropinone or tropine were fed. The expression of the enzyme arginine decarboxylase (EC 4.1.1.19) was particularly sensitive to feed-back repression, both by its product agmatine and by more distant pathway intermediates, notably putrescine and tropine. Some diminution of the levels of putrescine N-methyltransferase (EC 2.1.1.53) and N-methylputrescine oxidase, the first committed enzymes of alkaloid biosynthesis, was also seen with tropine, although only at rather high levels. It is concluded that the pathway is not regulated in a simple manner and that (i) the early enzymes of the pathway are at near rate-limiting levels, (ii) there is a major limitation to flux at the level of the esterification of tropine, and (iii) the level of free tropine may be important in determining the flux into and through the tropane pathway.
ISSN:0032-0935
1432-2048
DOI:10.1007/BF00197787