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agrostemma_githago_l
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agrostemma_githago_l [2015/03/15 13:59] andreas angelegt |
agrostemma_githago_l [2015/07/04 19:26] andreas |
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| - | The seeds were formerly used in folk medicine to treat skin impurities, gastritis, cough, worms and as diuretic. Efficiacy is not proven and the seeds are rather toxic. \\ | + | The seeds were formerly used in folk medicine to treat skin impurities, gastritis, cough, worms and as diuretic. Efficiacy is not proven and the seeds are rather toxic. Ripe seeds contain triterpene glycosides, mainly githagosid, and minor saponins with quillaic acid as aglycone.\\ |
| - | [Hagers Handbuch der Pharmazeutischen Praxis, Springer 2010] | + | [Hagers Handbuch der Pharmazeutischen Praxis, Springer 2010] \\ |
| + | [Über Triterpene, XXX. Über das Hauptsaponin der Kornrade (Agrostemma githago L.)., Tschesche, R., Schulze, H., Chemische Berichte, Vol.107(8), 1974, 2710-2719] | ||
| "... aqueous extracts of the seeds from Agrostemma githago L. proved to be remarkably more cytotoxic in comparison with isolated agrostemmasaponins in equal concentrations. A combination of agrostemmasaponin with a formyl function attached to triterpene position 4 together with agrostin, a ribosome-inactivating protein (RIP type 1; M (r): 27 kDa) which we isolated from the seed material, resulted in a markedly increased cytotoxicity... both compounds work as a functional unity showing a mechanism of ' | "... aqueous extracts of the seeds from Agrostemma githago L. proved to be remarkably more cytotoxic in comparison with isolated agrostemmasaponins in equal concentrations. A combination of agrostemmasaponin with a formyl function attached to triterpene position 4 together with agrostin, a ribosome-inactivating protein (RIP type 1; M (r): 27 kDa) which we isolated from the seed material, resulted in a markedly increased cytotoxicity... both compounds work as a functional unity showing a mechanism of ' | ||
| [Cytotoxic activity of the seeds from Agrostemma githago var. githago., Hebestreit, P., Melzig, M.F., Planta medica, Vol.69(10), 2003, 921-925] | [Cytotoxic activity of the seeds from Agrostemma githago var. githago., Hebestreit, P., Melzig, M.F., Planta medica, Vol.69(10), 2003, 921-925] | ||
| - | "Four saponins were isolated from Agrostemma githago L. Although three of these substances, Gypsophilasaponin 1 – 3, were already known from other species, they were described for this species for the first time. The structure of Agrostemmasaponin was elucidated as new substance and synergistically enhanced the cytotoxicity of RIP-I. A further amplification of the synergistic | + | "Four saponins were isolated from Agrostemma githago L. Although three of these substances, Gypsophilasaponin 1-3, were already known from other species, they were described for this species for the first time. The structure of Agrostemmasaponin was elucidated as new substance and synergistically enhanced the cytotoxicity of RIP-I. A further amplification of the synergistic |
| Saporin from Saponaria officinalis L. by the saponins isolated from Agrostemma githago L. was not detected. | Saporin from Saponaria officinalis L. by the saponins isolated from Agrostemma githago L. was not detected. | ||
| A linear correlation between the membrane toxicity of saponins and their characteristic to lower the surface tension of aqueous solutions could be shown. A cell-based model using radiolabeled cholesterol was developed to analyze the influence of saponins on the cholesterol content of cell membranes. Results from the model showed, that membrane active saponins lowered the cholesterol content of cellmembranes. These saponins also hindered the uptake of free cholesterol into the cell membrane resulting in a decreased cholesterol content compared to a control. Saponins that are not membrane active did not influence the cholesterol content of cells in the same range of concentration." | A linear correlation between the membrane toxicity of saponins and their characteristic to lower the surface tension of aqueous solutions could be shown. A cell-based model using radiolabeled cholesterol was developed to analyze the influence of saponins on the cholesterol content of cell membranes. Results from the model showed, that membrane active saponins lowered the cholesterol content of cellmembranes. These saponins also hindered the uptake of free cholesterol into the cell membrane resulting in a decreased cholesterol content compared to a control. Saponins that are not membrane active did not influence the cholesterol content of cells in the same range of concentration." | ||
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| Köhler, F.E., Medizinal Pflanzen, vol. 4: t. 36 (1890) \\ | Köhler, F.E., Medizinal Pflanzen, vol. 4: t. 36 (1890) \\ | ||
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agrostemma_githago_l.txt · Zuletzt geändert: 2016/05/03 15:49 von andreas
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