Plant secondary metabolites are having the great application in human health and nutritional aspect. Plant cell and organ culture systems are feasible option for the production of secondary metabolites that are of commercial importance in pharmaceuticals, food additives, flavors, and other industrial materials. The stress, including various elicitors or signal molecules, often induces the secondary metabolite production in the plant tissue culture system. The recent developments in elicitation of plant tissue culture have opened a new avenue for the production of secondary metabolite compounds. Secondary metabolite synthesis and accumulation in cell and organ cultures can be triggered by the application of elicitors to the culture medium. Elicitors are the chemical compounds from abiotic and biotic sources that can stimulate stress responses in plants, leading to the enhanced synthesis and accumulation of secondary metabolites or the induction of novel secondary metabolites. Elicitor type, dose, and treatment schedule are major factors determining the effects on the secondary metabolite production. The number of parameters, such as elicitor concentrations, duration of exposure, cell line, nutrient composition, and age or stage of the culture, is also important factors influencing the successful production of biomass and secondary metabolite accumulation. This chapter reviews the various abiotic and biotic elicitors applied to cultural system and their stimulating effects on the accumulation of secondary metabolites.
Brahmi (Bacopa monnieri) is an important medicinal plant mainly used for the treatment of neurological disorders and depression. Recent investigations revealed that bacoside A is major chemical component shown to be responsible for memory facilitating action of brahmi. The current investigation was carried out to assess the potential for increasing biomass and the concentration of bacoside A in the in vitro regenerated shoots by varying sucrose and pH levels of shoot regeneration medium. The leaf explants were cultured on the Murashige and Skoog (MS) medium supplemented with 2 mg l -1 kinetin (KN) and with varying concentrations of sucrose (0, 1, 2, 3, 4, 5 and 6% at pH 5.8) and pH (4.5, 5.0, 5.5, 6.0 and 6.5 with 2% sucrose) with the objective of verifying the effects of sucrose and pH level on shoot regeneration and to verify the accumulation of bacoside A in the regenerated shoots. The shoot biomass increased (150.50 ± 2.84 shoots per explant, fresh wt 6.31 ± 0.12 g and dry wt 250 ± 5.00 mg) on the medium supplemented with 2% sucrose and pH which was set at 4.5. The results of HPLC analysis indicate that increase in sucrose concentration (0, 1, 2, 3, 4, 5 and 6% at pH 5.8) lead to decrease in the bacoside A content (39.51, 22.43, 13.05, 12.17, 10.73, 9.56 and 8.93 mg g -1 dry wt, respectively) in regenerated shoots. These findings provide evidence that stressful condition of inadequate supply of carbon elevated synthesis of bacoside A in brahmi shoots. However, 2% sucrose is found suitable for biomass accumulation. Therefore, medium supplemented with 2% sucrose and pH set at 4.5 was found suitable for both biomass (6.31 ± 0.12 g fresh wt and 250 ± 5.00 mg dry wt) and bacoside A accumulation (13.09 mg g -1 dry wt).
The major objectives of this study were to investigate an efficient rapid protocol for mass propagation of adventitious shoots of brahmi using semisolid and liquid cultures; and to assess the amount of bacoside A accumulated in the regenerated shoots. Leaf explants were grown in vitro on Murashige and Skoog semisolid medium supplemented with 0.5, 1.0, 1.5, 2.0 and 2.5 mg l -1 6-benzyladenine or kinetin (KN) or thidiazuron (TDZ) for 4 weeks. Adventitious shoots developed from leaf explants on all cytokinin supplemented media. After 4 weeks of incubation, leaf explants were split into two batches and one set was subcultured on semisolid medium and another set in liquid medium containing same concentration of cytokinins where they have come from. Highest rate of shoot regeneration was observed for explants cultured on medium with 2 mg l -1 KN. The fresh and dry weight of shoots was also highest with this treatment. Liquid cultures were found suitable for proliferation of shoots (155.6 shoots per explant) and they also favored highest biomass accumulation (8.60 g fresh and 0.35 g dry biomass). The bacoside A contents were determined in shoots using HPLC. Analysis revealed that, the contents were highest with shoots regenerated on medium supplemented with 2 mg l -1 KN. The amount of bacoside A was highest in the shoots regenerated in liquid medium (11.92 mg g -1 DW) and it was 2.2-fold higher compared to shoots grown on semisolid cultures.
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