OBJECTIVETo investigate the chemical constituents of lipid-soluble and water-soluble extracts in Flos Sophorae Carbonisatus.

METHODThe compounds were isolated by means of solvent extraction and column chromatography, and their structures were determined by spectral analysis.

RESULTTwo compounds from petroleum ether extract and ten from n-BuOH extract were isolated and identified as sophoradiol (1), beta-sitosterol (2), 3 beta, 22 beta, 24-trihydroxy-olean-12-ene (soyasapogenol B) (3), daucosterol (4), kaikasaponin I (5), quercetin (6), isorhamnetin (7), 2-O-methyl-insitol (8), isorhamnetin-3-O-rutinoside (9), isoquercitrin (10), orobol-7-O-beta-D-glucoside (11), rutin (12), respectively.

CONCLUSIONCompound 3, 8-11 were isolated from Flos Sophorae Carbonisatus for the first time. The results could be basic foundation for further study on processing mechanism of Flos Sophorae Carbonisatus.

Sophora ; chemistry

OBJECTIVETo establish a new method for quality evaluation and validate its feasibilities by simultaneous quantitative assay of five alkaloids in Sophora flavescens.

METHODThe new quality evaluation method, quantitative analysis of multi-components by single marker (QAMS), was established and validated with S. flavescens. Five main alkaloids, oxymatrine, sophocarpine, matrine, oxysophocarpine and sophoridine, were selected as analytes to evaluate the quality of rhizome of S. flavescens, and the relative correction factor has good repeatibility. Their contents in 21 batches of samples, collected from different areas, were determined by both external standard method and QAMS. The method was evaluated by comparison of the quantitative results between external standard method and QAMS.

RESULTNo significant differences were found in the quantitative results of five alkaloids in 21 batches of S. flavescens determined by external standard method and QAMS.

CONCLUSIONIt is feasible and suitable to evaluate the quality of rhizome of S. flavescens by QAMS.

Alkaloids ; analysis ; Quinolizines ; analysis ; Sophora ; chemistry

OBJECTIVETo analyze the chemical compositions and their contents in non-alkaloids fraction from Radix Sophorae Tonkinensis.

METHODThe non-alkaloids from Radix Sophorae Tonkinensis were analyzed by gas chromatography/mass spectrometry after trimethylsilyl derivatization. The chemical compositions were identified by comparison of the authentic sample and NIST database; the contents of 19 identified components were determined by linear regression equation.

RESULT19 compounds constituting 34.72% of the non-alkaloids were identified. The major components were saccharides (5 compounds constituting 22.62%), organic acid (9 compounds constituting 11.81%), and others (5 compounds constituting 0.29%).

CONCLUSIONThe GC-MS is a simple, rapid and sensitive method to investigate the complex primary metabolites in plants.

Gas Chromatography-Mass Spectrometry ; methods ; Plant Roots ; chemistry ; Sophora ; chemistry

To investigate the effects of six common drying methods on the quality of different specifications of Sophorae Flos, in order to select their suitable drying methods. According to appearance and morphology, Sophorae Flos was divided into the following three specifications: flower bud type(HL), half-open type(BK) and blooming type(SK). All specifications of samples were treated with shade-drying method(25 ℃, natural temperature), sun-drying method, hot-air-drying method(60, 105 ℃), and drying method(60 ℃) after steaming. The contents of total flavonoids, rutin, narcissus, quercetin, isorhamnetin, and Fe~(3+) reducing ability, DPPH free radical scavenging ability, ABTS free radical scavenging ability and fluorescence recovery after photobleaching(FRAP) were detected by UV, HPLC and colorimetry, respectively. Principal component analysis(PCA), cluster analysis(CA) and correlation analysis were used to comprehensively evaluate the quality of samples. According to the results, there were significant differences in the effect of drying methods on different specifications of samples. The drying method(60 ℃) after steaming was suitable for HL and BK, while the hot-air-drying method(60 ℃) was suitable for SK. When the fresh medicinal materials could not be treated in time, they should be spread out in a cool and ventilated place. Under high and low temperature conditions, the quality of three specifications of Sophorae Flos would be reduced. The hot-air-drying method(105 ℃) and shade-drying method(25 ℃) were not suitable for the treatment of fresh flowers and flower buds of Sophora japonicus. There were obviously differences of chemical compositions and antioxidant activities among the three specifications of samples. Therefore, the specifications of medicinal materials should be controlled to ensure the uniform quality. The study provided the abundant data reference for the selection of appropriate drying methods for the three specifications of Sophorae Flos, and useful exploration for the classification and processing of medicinal materials of flowers.
Chromatography, High Pressure Liquid ; Flavonoids/analysis* ; Flowers/chemistry* ; Rutin ; Sophora

It was aimed at exploring the potential pharmacological effects of alkaloids in Sophora alopecuroides by means of network pharmacology in this study. The main alkaloids in S. alopecuroides were collected for analysis of drug properties, prediction of potential targets and screening of signaling pathways. DAVID analysis tool combined with KEGG database was used to annotate and analyze the signaling pathway. The alkaloids-targets-signaling pathways network was built through Cytoscape software. Results showed that 17 alkaloids in S. alopecuroides involved 49 targets (170 times in all) and 22 important signaling pathways. Three nodes in model of network pharmacology were cross-linked, and the metabolic pathways were coordinated and regulated by each other. It indicated that alkaloids in S. alopecuroides may have therapeutic effect on diseases of cancer, metabolic disorder, endocrine system, digestive system, nervous system and so on.
Alkaloids ; pharmacology ; Phytochemicals ; pharmacology ; Signal Transduction ; drug effects ; Sophora ; chemistry

OBJECTIVETo explore the current application and features of Aconite prescriptions with incompatible herbs in grade A class three hospitals in east China and central China through a clinical study and comparative analysis.

METHODClinical prescriptions containing Aconite with incompatible herbs were collected. Association rules were utilized to analyze the compatible features of these herbs.

RESULTThis analysis found that the frequently used incompatible herba; pairs are Aconiti Lateralis Radix Praeparata-Pinelliae Rhizoma, with the support rate of 44.45%, occupying nearly half of the surveyed prescriptions; Pinelliae Rhizoma is the most frequently used herb in the two areas, with support rate up to 76.24%. Among the top 10 herbal pairs in the support rate, except for Aconiti Lateralis Radix Praeparata and Pinelliae Rhizoma, the top 10 herbs in Central China were mostly for warming the middle jiao and tonifying qi, such as Zingiberis Rhizoma, Atractylodis Macrocephalae Rhizoma and Codonopsis Radix; Whereas those in east China were mostly for activating and nourishing blood, such as Angelicae Sinensis Radix, Chuanxiong Rhizoma, and Salviae Miltiorrhizae Radix et Rhizoma. Among the top 10 herbal pairs in the support rate, except for Aconiti Lateralis Radix Praeparata-Pinelliae Rhizoma, the core herbal pairs applied in central China were mainly for resolving phlegm and warming the middle jiao, such as Pinelliae Rhizoma-Glycyrrhizae Radix et Rhizoma, Pinelliae Rhizoma-Zingiberis Rhizoma; Whereas those in east China were principally for activating blood and tonifying qi, like Atractylodis Macrocephalae Rhizoma and Pinelliae Rhizoma, Angelicae Sinensis Radix and Pinelliae Rhizoma. Among the core herbal groups in the two areas, the most frequently used herbal groups in the two areas are Aconiti Lateralis Radix Praeparata, Glycyrrhizae Radix et Rhizoma and Pinelliae Rhizoma with the support rate of 59.73%, accounting for the highest proportion among all of herbal groups.

CONCLUSIONThere are the combined clinical application of Aconite with incompatible herbs, mostly with Aconiti Lateralis Radix Praeparata-Pinelliae Rhizoma, but with differences in the combined application in east China and central China.

Aconitum ; chemistry ; Drug Incompatibility ; Drug Prescriptions ; Drugs, Chinese Herbal ; chemistry ; pharmacology ; Humans ; Pinellia ; chemistry ; Sophora ; chemistry

OBJECTIVETo study the chemical constituents of the flavonoids from Sophora tonkinensis.

METHODThe compounds were isolated by chromatography on silica gel, Sephadex LH-20 column and identified by spectroscopic analysis.

RESULTEight compounds were isolated and their structures were identified as tonkinochromane I (1), glabrol (3), lupinifolin (2), tonkinensisol (4), 8-C-prenylkaempferol (5), 7,2'-dihydroxy-4'-methoxy-isoflavanol (6), formononetin (7), and genistein (8), respectively.

CONCLUSIONCompound 1 was a new compound. And compound 6 was firstly isolated from the genus Sophora. Compounds 2, 3 and 5 were isolated from S. tonkinensis for the first time.

Chromatography, High Pressure Liquid ; Flavonoids ; analysis ; chemistry ; Genistein ; analysis ; Isoflavones ; analysis ; Rhizome ; chemistry ; Sophora ; chemistry

Aromatic constituents from rhizomes of Sophora tonkinensis were purified by extensive chromatographic techniques including column chromatography over macroporous resin,MCI,silica gel,weak acid cation exchange resin,Sephadex LH-20,ODS,and semi-preparative HPLC. Twelve aromatic compounds were isolated and identified from the water aqueous extract of the rhizomes of S.tonkinensis. Their structures were elucidated as 4-( 3-hydroxypropyl) phenol( 1),( ±)-4-( 2-hydroxypropyl) phenol( 2),benzamide( 3),( ±)-3-( p-methoxyphenyl)-1,2-propanediol( 4),4-methoxybenzamide( 5),3-hydroxy-1-( 4-hydroxy-3-methoxyphenyl) propan-1-one( 6),tyrosol( 7),( ±)-2,3-dihydroxypropyl benzoate( 8),vanillin alcohol( 9),7,3'-dihydroxy-8,4'-dimethoxyisoflavone( 10),7,4'-dihydroxy-3'-methoxyisoflavone( 11),and 7,3'-dihydroxy-5'-methoxyisoflavone( 12). Compounds 1-9 were firstly isolated from the Sophora genus. Compounds 4,5,10 and 11 can remarkably protect Hep G2 cell against APAP-induced damage at the concentration of 10 μmol·L-1. Compounds 1-12 exhibited no significant activities on the assays of inhibition of LPS-induced NO production in RAW cell lines and NF-κB inhibition.
Chromatography, High Pressure Liquid ; Hep G2 Cells ; Humans ; Rhizome/chemistry* ; Sophora/chemistry*

OBJECTIVEThe fluorescence property of sophoramine was studied and a spectrofluorimetric method was established to determine the sophoramine content.

METHODIn 20% ethanol solution, with excitation wavelength at 394 nm and emission wavelength at 467 nm, the fluorescence intensity of sophoramine can be detected by the fluorophotometer.

RESULTSophoramine content can be determined with external standard method by fluorophotometer. The linear relationship between fluorescence intensity and concentration is kept in the range of 10-200 microg x mL(-1). The regression equation is Int = 1.137C + 3.875. The recovery rate is 98%-102%.

CONCLUSIONUtilizing the fluorescence character of sophoramine, its content can be determined fast and sensitively. The analysis is not interfered by the existing matrine and oxymatrine. The method has high selectivity and the results is satisfying.

Alkaloids ; analysis ; Hydrogen-Ion Concentration ; Plants, Medicinal ; chemistry ; Sophora ; chemistry ; Spectrometry, Fluorescence ; methods

Sixteen compounds have been isolated from the EtOAc fraction of 95% ethanolic extract of Sophora dunnii through silica gel, Sephadex LH-20 and semi-prerarative HPLC column chromatographies. Their structures were identified on the basis of NMR and MS spectra data as phaseollidin (1), L-maackiain (2), 2-(2',4'-dihidroxyphenyl)-5,6-methylenedioxy benzofuran (3), 8-demethyl-farrerol (4), liquiritigenin (5), genistein (6), 6-methylgenistein (7), 5-O-methyl genistein (8), 7,2',4'-trihydroxys-5-methoxy-isoflavanone (9), 7, 3', 4'-trihydroxy-isoflavanone (10), erythribyssin D (11), calycosin (12), trans-resveratrol (13), cis-resveratrol (14), stigmasterol (15), β-sitosterol (16). Among these, compounds 1-14 and 16 were isolated from this plant for the first time.
Chemical Fractionation ; Drugs, Chinese Herbal ; chemistry ; isolation & purification ; Molecular Structure ; Sophora ; chemistry ; Spectrometry, Mass, Electrospray Ionization