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OBJECTIVE To optimize the extraction process of Xuelian yishen formula. METHODS The contents of total flavone, echinacoside and acteoside, and extraction yield in Xuelian yishen formula were chosen as indexes, entropy weight method-analytic hierarchy process was adopted to determine the weight coefficient. Box-Behnken response surface methodology was used to optimize the extraction process of Xuelian yishen formula with extraction time, solid-liquid ratio and extraction times as factors, using comprehensive score of above indexes as index. RESULTS The optimal extraction process of Xuelian yishen formula was extraction time of 2 h, solid-liquid ratio of 1∶12, extracting for 3 times. Average comprehensive score of 3 validation tests was 96.40 points (RSD=0.28%), the deviation of which with predictive value was 0.98%. CONCLUSIONS The optimized extraction process is stable, feasible and reproducible, which can provide reference for the extraction process of Xuelian yishen formula.
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Twelve alkaloids were isolated from the bulbs of Fritillaria yuminensis by column chromatography over silica gel, ODS, and Sephadex LH-20, as well as RP-HPLC. Their structures were identified mainly by NMR and MS analyses as yubeinine(1), imperialine(2), delavinone(3), tortifoline(4), hupehenizioiside(5), imperialine-β-D-glucoside(6), kuroyurinidine(7), pengbeisine A(8), walujewine A(9), peimisine-3-O-β-D-glucopyranoside(10), solanidine-3-O-α-L-rhamnopyranosyl-(1→2)-β-D-glucopyranoside(11), and solanidine-3-O-α-L-rhamnopyranosyl-(1→2)-[β-D-glucopyranosyl-(1→4)]-β-D-glucopyranoside(12). Compounds 4-12 were obtained from F. yuminensis for the first time.
Subject(s)
Alkaloids , Chromatography, High Pressure Liquid , Fritillaria , Chemistry , Magnetic Resonance Spectroscopy , Molecular Structure , Phytochemicals , Plant Roots , ChemistryABSTRACT
Seven aromatic glycosides (1-7), including four phenylethanol glycosides, one phenylmethanol glycoside, one phenylpropane glycoside and one benzoside, were isolated from the methanolic extract of Uighur Medicine Elaeagnus angustifolia flowers. Their structures were elucidated based on the analysis of spectroscopic data (1D, 2D NMR and HR-MS). Compound 1 is a new compound, named as angustifol A. Six known compounds were identified as 2-phenylethyl-O-β-D-glucopyranoside(2), salidroside (3), vanillic acid 4-O-β-D-glucopyranoside(4), vanilloloside (5), (Z)-isoconiferin (6), 2-phenylethyl-6-O-α-L-arabinofuranosyl-β-D-glucopyranoside (7). Compounds 2-7 were isolated from the genus Elaeagnus for the first time. In vitro anti-inflammatory assays revealed that none of these compounds showed good COX inhibitory activities.
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AIM To study the chemical constituents from the dregs of Euphorbia Alatavica Boiss.METHODS The acetone-methanol extract from the dregs of E.Alatavica was isolated and purified by silica,Sephadex LH-20 and preparative-HPLC column,then the structures of obtained compounds were identified by physicochemical properties and spectral data.RESULTS Nine compounds were isolated and identified as 8-hydroxy-3-methoxy-5H-pyrido [2,1-d] pyrazin-5-one (1),isoscopoletin (2),dihydroapigenin (3),β-carboline alkaloid (4),syringaresinol (5),pinoresinol (6),methylparaben (7),methyl-3,4-dihydroxybenzoate (8),trimethyl3,4-dehydrochebulate (9).CONCLUSION All the compounds are isolated from this plant for the first time,compound 1 and 4 are isolated from the genus Euphorbia for the first time.
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Objective To establish a method for quality evaluation of Nardostachyos Radix et Rhizoma derived from Nardostachys jatamansi DC by determining the contents of nardosinone and establishing fingerprints. Methods HPLC fingerprint and content determination methods were established to evaluate ten batches of Nardostachyos Radix et Rhizoma from Nardostachys jatamansi DC.For the determination of nardosinone, the samples were separated by Phenomenex-C18 ( 4. 6 mm × 250 mm, 5 μm) with the mobile phase consisting of acetonitrile and water at the flow rate of 0. 8 mL · min-1 , the detection wavelength was set at 250 nm,and column temperature was 25℃.The gradient mobile phase system was used for the fingerprints. Results HPLC fingerprint of Nardostachyos Radix et Rhizoma was established with good chromatography separation and repeatability, which could be used for quality control of Nardostachyos Radix et Rhizoma. After similarity analysis, the results showed that there was no significantly difference between the HPLC fingerprints of samples from different origins,but the content of four major peaks were different.The amount of nardosinone from ten batches of Nardostachyos Radix et Rhizoma was determined by HPLC-DAD, which showed that the contents of nardosinone from Nardostachys jatamansi DC were obviously different with each other. Conclusion The method is sensitive, repeatable and accurate. It can be used as a method of quality control for Nardostachyos Radix et Rhizoma.
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Objective To establish a method for quality evaluation of Nardostachyos Radix et Rhizoma derived from Nardostachys jatamansi DC by determining the contents of nardosinone and establishing fingerprints. Methods HPLC fingerprint and content determination methods were established to evaluate ten batches of Nardostachyos Radix et Rhizoma from Nardostachys jatamansi DC.For the determination of nardosinone, the samples were separated by Phenomenex-C18 ( 4. 6 mm × 250 mm, 5 μm) with the mobile phase consisting of acetonitrile and water at the flow rate of 0. 8 mL · min-1 , the detection wavelength was set at 250 nm,and column temperature was 25℃.The gradient mobile phase system was used for the fingerprints. Results HPLC fingerprint of Nardostachyos Radix et Rhizoma was established with good chromatography separation and repeatability, which could be used for quality control of Nardostachyos Radix et Rhizoma. After similarity analysis, the results showed that there was no significantly difference between the HPLC fingerprints of samples from different origins,but the content of four major peaks were different.The amount of nardosinone from ten batches of Nardostachyos Radix et Rhizoma was determined by HPLC-DAD, which showed that the contents of nardosinone from Nardostachys jatamansi DC were obviously different with each other. Conclusion The method is sensitive, repeatable and accurate. It can be used as a method of quality control for Nardostachyos Radix et Rhizoma.
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<p><b>OBJECTIVE</b>To study on the new preparation technology of Hugan Buzure granule and to compare protective effect on liver injury in rats by different extraction processes.</p><p><b>METHOD</b>Volatile oil extraction technology, inclusion condition and ethanol extraction condition were selected by orthogonal experiments. The experiment models of liver injury were induced by carbon tetrachloride, bacillus calmette-guerin (BCG) and plus lipolysaccharides (LPS) in rats, respectively. ALT, AST in serum, and MDA, SOD in liver were measured and the rats were killed to calculate the liver coefficient to evaluate the protective effect of Hugan Buzure granule on experimental injury in rats.</p><p><b>RESULT</b>The optimum conditions of volatile oil extraction were 1:12 of solid-liquid ratio, 2 h of soaking time, and 8 h of extracting time. The optimal beta-cyclodextrin inclusion complex condition was as follows: the volatile oils formed complex with the beta-CD in a ratio of 1: 6 and stirring for 1 h at 40 degrees C. The optimum ethanol extraction was as follows: refluxing and extracting 3 times with 10-fold 50% ethanol, 2 h for each time. Compared with the model group, the new technology extraction of Hugan Buzure granule could obviously inhibite the elevation of serum ALT (P < 0.01), AST (P < 0.05) of liver injury induced by BCG + LPS, and elevate the contents of SOD, and obviously inhibite the elevation of serum AST (P < 0.01) of liver injury induced by carbon tetrachloride.</p><p><b>CONCLUSION</b>The new preparation technology was feasible. The new extraction could protect the liver injury in rats, which was better than extraction of current preparation technology.</p>