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Amit N. Shinde,Nutan Malpathak,Devanand P. Fulzele 한국생물공학회 2009 Biotechnology and Bioprocess Engineering Vol.14 No.5
The effect of biotic elicitors (yeast extract, chitosan), signaling molecule (salicylic acid), and polyamines (putrescine and spermidine) was studied with respect to isoflavones accumulation in cell suspension cultures of Psoralea corylifolia L.Untreated cell suspension (control) accumulated 1.66% dry wt of daidzein and 0.165% dry wt of genistein. In precursor feeding experiment, phenylalanine at 0.5 mM concentration led to 1.3 fold higher production of daidzein (1.99% dry wt) and genistein (0.22% dry wt). In biotic elicitors, yeast extract (100 mg/L) was found to be the most efficient elicitor to induce higher production levels of daidzein (2.21% dry wt) and genistein (0.293% dry wt) in suspension cultures. Salicylic acid (signaling molecule) at 1 mM concentration stimulated the maximum accumulation of daidzein (3.4% dry wt) and genistein (0.41% dry wt) 2 days after elicitation. In case of polyamines, spermidine (100 mM) resulted in highest accumulation of daidzein (3.2% dry wt) and genistein (0.475% dry wt) after 7 days of addition, which was 2.4 fold of that in control. This is the first report on kinetics of isoflavone production in response to elicitation in cell suspension of P.corylifolia. The effect of biotic elicitors (yeast extract, chitosan), signaling molecule (salicylic acid), and polyamines (putrescine and spermidine) was studied with respect to isoflavones accumulation in cell suspension cultures of Psoralea corylifolia L.Untreated cell suspension (control) accumulated 1.66% dry wt of daidzein and 0.165% dry wt of genistein. In precursor feeding experiment, phenylalanine at 0.5 mM concentration led to 1.3 fold higher production of daidzein (1.99% dry wt) and genistein (0.22% dry wt). In biotic elicitors, yeast extract (100 mg/L) was found to be the most efficient elicitor to induce higher production levels of daidzein (2.21% dry wt) and genistein (0.293% dry wt) in suspension cultures. Salicylic acid (signaling molecule) at 1 mM concentration stimulated the maximum accumulation of daidzein (3.4% dry wt) and genistein (0.41% dry wt) 2 days after elicitation. In case of polyamines, spermidine (100 mM) resulted in highest accumulation of daidzein (3.2% dry wt) and genistein (0.475% dry wt) after 7 days of addition, which was 2.4 fold of that in control. This is the first report on kinetics of isoflavone production in response to elicitation in cell suspension of P.corylifolia.
Amit N. Shinde,Nutan Malpathak,Devanand P. Fulzele 한국생물공학회 2009 Biotechnology and Bioprocess Engineering Vol.14 No.3
The effect of biotic elicitors (yeast extract, chitosan), signaling molecule (salicylic acid), and polyamines (putrescine and spermidine) was studied with respect to isoflavones accumulation in hairy root cultures of Psoralea corylifolia L. Untreated hairy roots (control) accumulated 1.55% dry wt of daidzein and 0.19% dry wt of genistein. In precursor feeding experiment, phenylalanine at 2 mM concentration led to 1.3 fold higher production of daidzein (1.91% dry wt) and genistein (0.27% dry wt). In biotic elicitors, chitosan (2 mg/L) was found to be the most efficient elicitor to induce daidzein (2.78% dry wt) and genistein (0.279% dry wt) levels in hairy roots. Salicylic acid at 1 mM concentration stimulated the maximum accumulation of daidzein (2.2% dry wt) and genistein (0.228% dry wt) 2 days after elicitation. In case of polyamines, putrescine (50 mM) resulted in highest accumulation of daidzein (3.01% dry wt) and genistein (0.227% dry wt) after 5 days of addition. Present results indicated the effectiveness of elicitation and precursor feeding on isoflavones accumulation in hairy roots of p.corylifolia. This is the first report of elicitation on isoflavones production by hairy roots of P.corylifolia. The effect of biotic elicitors (yeast extract, chitosan), signaling molecule (salicylic acid), and polyamines (putrescine and spermidine) was studied with respect to isoflavones accumulation in hairy root cultures of Psoralea corylifolia L. Untreated hairy roots (control) accumulated 1.55% dry wt of daidzein and 0.19% dry wt of genistein. In precursor feeding experiment, phenylalanine at 2 mM concentration led to 1.3 fold higher production of daidzein (1.91% dry wt) and genistein (0.27% dry wt). In biotic elicitors, chitosan (2 mg/L) was found to be the most efficient elicitor to induce daidzein (2.78% dry wt) and genistein (0.279% dry wt) levels in hairy roots. Salicylic acid at 1 mM concentration stimulated the maximum accumulation of daidzein (2.2% dry wt) and genistein (0.228% dry wt) 2 days after elicitation. In case of polyamines, putrescine (50 mM) resulted in highest accumulation of daidzein (3.01% dry wt) and genistein (0.227% dry wt) after 5 days of addition. Present results indicated the effectiveness of elicitation and precursor feeding on isoflavones accumulation in hairy roots of p.corylifolia. This is the first report of elicitation on isoflavones production by hairy roots of P.corylifolia.
Aggregate Cell Suspension Cultures of Psoralea corylifolia Improved Phytoestrogens Production
Ramesh Satdive,Amit N. Shinde,Sudhir Singh,Suchita Kamble,Shraddha Singh,Nutan Malpathak,Devanand P. Fulzele 한국생물공학회 2015 Biotechnology and Bioprocess Engineering Vol.20 No.2
The intensity of the hydrodynamic stress on cell aggregates is closely related to the growth and production of secondary metabolites. In this study, we have investigated the effects of cell aggregation in suspension cultures of Psoralea corylifolia on growth and phytoestrogens production. HPLC analysis revealed that cell aggregates of 1.2 mm size produced maximum amount of daidzein (2.84% dry wt.) and genistein (0.47% dry wt.) on day 20. The phytoestrogens production level was ~2-fold more than that of heterogeneous cell aggregates (control) in suspension cultures and 11-fold more than field grown plants. Analysis of spent medium revealed no leaching of phytoestrogens. Results indicated that certain degree of cell aggregation in suspension cultures directly supported phytoestrogen production.