Silvia Fornalè

Alkaloid production in Duboisia hybrid hairy root cultures overexpressing the pmt gene

Putrescine:SAM N-methyltransferase (PMT) catalyses the N-methylation of the diamine putrescine to form N-methylputrescine, the first specific precursor of both tropane and pyridine-type alkaloids, which are present together in the roots of Duboisia plants. The pmt gene of Nicotiana tabacum was placed under the regulation of the CaMV 35S promoter and introduced into the genome of a scopolamine-rich Duboisia hybrid by a binary vector system using the disarmed Agrobacterium tumefaciens strain C58C1 carrying the rooting plasmid pRiA4. The presence of the foreign gene in kanamycin-resistant hairy roots and its overexpression were confirmed by polymerase chain reaction and Northern blot analysis respectively. The N-methylputrescine levels of the resulting engineered hairy roots increased (2-4-fold) compared to wild type roots, but there was no significant increase in either tropane or pyridine-type alkaloids.

Long-distance translocation of polyamines in phloem and xylem of Ricinus communis L. plants

Abstract. Polyamine content and enzyme activities in the biosynthetic and degradative pathways of polyamine metabolism were investigated in sieve-tube sap, xylem sap and tissues of seedlings and adult plants of Ricinus communis L. Polyamines were present in tissues and translocation fluids of both seedlings and adult plants in relatively high amounts. Only free polyamines were translocated through the plant, as indicated by the finding that only the free form was detected in the phloem and the xylem sap. Removal of the endosperm increased the polyamine content in the sieve-tube exudate of seedlings. The level and pattern of polyamines in tissue of adult leaves changed during leaf age, but not, however, in the sieve-tube sap. Xylem sap was relatively poor in polyamines. Polyamine loading in the phloem was demonstrated by incubating cotyledons with [14O]putrescine and several unlabelled polyamines. Feeding cotyledons with cadaverine and spermidine led to a decrease in the level of putrescine in sieve-tube sap, indicating a competitive effect. Comparison of polyamine content in the tissue and export rate showed that the export would deplete the leaves of polyamines within 1–3 d, if they were not replenished by biosynthesis. Polyamine biosynthesis in Ricinus proceeds mostly via arginine decarboxylase, which in vitro is 100-fold more active than ornithine decarboxylase. The highest arginine decarboxylase, ornithine decarboxylase and diamine oxidase activities were detected in cotyledons, while in sieve-tube sap only a slight arginine decarboxylase activity was found.

Effect of Agrobacterium rhizogenes T-DNA on alkaloid production in Solanaceae plants

Abstract Inoculation of leaf sections of tobacco, Duboisia hybrid and Datura metel Solanaceae plants with A4 strain of Agrobacterium rhizogenes , induced transformed roots with the capacity to produce putrescine-derived alkaloids. In general, the hairy roots obtained showed two morphologies: typical hairy roots with high capacity to produce alkaloids and callus-like roots with faster growth capacity and lower alkaloid production. The aux 1 gene of A. rhizogenes was detected by PCR analyses in all roots showing callus-like morphology. However, this gene was only detected in 25–60% of the root cultures established showing typical hairy morphology. This fact suggests a significant role of aux genes in the morphology of transformed roots. Inoculation of leaf sections with A. tumefaciens strain C58 C1 carrying the pRiA4TR- (deletion of aux genes) did not produce roots with callus-like morphology.