高速逆流色谱法快速分离制备枸杞中莨菪亭

建立了用高速逆流色谱(HSCCC)从枸杞中快速分离莨菪亭的方法。将枸杞的乙醇提取物经D-101大孔树脂初步纯化后直接进行高速逆流色谱分离,用薄层色谱-荧光法考察了莨菪亭在不同溶剂体系中的分配情况。结果表明,最佳的溶剂体系为氯仿-甲醇-水(10:7:3, v/v/v),取上相为固定相,下相为流动相,在主机转速为850 r/min、流速为1.5 mL/min、检测波长为365 nm的条件下,从200 mg样品中一次性分离制备可得到10.2 mg纯度达到98.3%的莨菪亭。制备所得的莨菪亭与对照品的高效液相色谱(HPLC)保留时间一致,且经核磁共振氢谱、碳谱鉴定结构;纯度经HPLC法测定。研究发现,氯仿-甲醇-水(10:7:3, v/v/v)体系可连续二次进样而样品的峰形未受明显的影响。实验结果表明用薄层色谱-荧光法可快速选定HSCCC溶剂体系,进而可快速、简便地制备高纯度的莨菪亭。     

Preparative separation of six coumarins from the pummelo (Citrus maxima (Burm.) Merr. Cv. Shatian Yu) peel by high-speed countercurrent chromatography

In this work, six coumarins, including two new ones, 8-(3-hydroxy-2,2-dimethylpropyl)-7-methoxy-2H-chromen-2-one (2) and 5-[(7′,8′-dihydroxy-3′,8′-dimethyl-2-nonadienyl)oxy] psoralen (4), as well as four known ones, 5-[(6′,7′-dihydroxy-3′,7′-dimethyl-2-octenyl) oxy] psoralen (1), marmin (3), epoxybergamottin (5), and aurapten (6) were successfully separated from the crude extract of pummelo (Citrus maxima (Burm.) Merr. Cv. Shatian Yu) peel by high-speed countercurrent chromatography in a single run with petroleum-ether–ethyl acetate–methanol–water (4:6:6:4, v/v). The structures of these six coumarins were elucidated by ESI-MS, extensive 1D and 2D NMR spectroscopy.     

高速逆流色谱分离制备椭圆叶花锚中的2种口山酮苷元

椭圆叶花锚的主要活性成分为口山酮类化合物,这类化合物具有利胆、抗炎、抗菌及抗病毒活性。应用高速逆流色谱法建立了2种高纯度口山酮苷元的分离制备方法。对椭圆叶花锚氯仿萃取部位运用高速逆流色谱分离纯化,以正己烷-乙酸乙酯-甲醇-水(5:5:7:5, v/v/v/v)为两相溶剂系统,上相为固定相,下相为流动相。在主机转速800 r/min,流动相流速1.5 mL/min,检测波长254 nm条件下进行分离制备。所得产物经高效液相色谱分析检测,其化学结构由核磁共振氢谱(1H NMR)和核磁共振碳谱(13C NMR)鉴定。在此条件下,从100 mg粗样品中一步分离得到18 mg 1-羟基-2,3,5-三甲氧基口山酮,14 mg 1-羟基-2,3,4,5-四甲氧基口山酮。经高效液相色谱分析,其纯度均达98%以上。该方法简便、快速,所得产物纯度高,适合于椭圆叶花锚口山酮苷元的制备分离。     

Preparative separation of minor saponins from Platycodi Radix by high-speed counter-current chromatography

Platycosides (PSs), the saponins found in the root of Platycodon grandiflorum (Jacq.) A. DC. (Platycodi Radix), are typically composed of oleanene backbones with two side chains; one is a 3-O-glucose linked by a glycosidic bond, and the other is a 28-O-arabinose-rhamnose-xylose-apiose linked by an ester bond. Minor saponins, acetylated isomers of the major saponin on either the 2' or 3' position of rhamnose, were isolated from Platycodi Radix using a multi-step process including high-speed counter-current chromatography (HSCCC) and preparative reversed-phase high-performance liquid chromatography (RP-HPLC). After the separation of the major components, the enriched minor saponin fraction was used for this study. A two-phase solvent system consisting of chloroform-methanol-isopropanol-water (3:2:2:3, v/v) was used for HSCCC. HSCCC separation of the enriched minor saponin fraction yielded 2'-O-acetylplatycodin D, 3'-O-acetylpolygalacin D, 2'-O-acetylpolygalacin and a mixture of 3'-O-acetylplatycodin D and polygalacin D. The mixture fraction from HSCCC separation was further purified by preparative RP-HPLC, giving 3'-O-acetylplatycodin D and polygalacin D at a purity of over 98.9%. The developed method provides the preparative and rapid separation of minor saponins in the crude extract of Platycodi Radix. To the best of our knowledge, this is the first on the separation of acetylated PSs by HSCCC.     

Preparative separation and purification of deoxyschisandrin and gamma-schisandrin from Schisandra chinensis (Turcz.) Baill by high-speed counter-current chromatography

High-speed counter-current chromatography (HSCCC) was successfully applied to the preparative separation and purification of deoxyschisandrin and gamma-schisandrin from the crude petroleum ether extracts of Schisandra chinensis (Turcz.) Baill. The optimum solvent system composed of n-hexane-methanol-water (35:30:3, v/v) led to the successful preparation of deoxyschisandrin and gamma-schisandrin. The analysis of HPLC for each peak fraction of preparative HSCCC showed that the purity of deoxyschisandrin (8 mg) was over 98% and gamma-schisandrin (12 mg) was over 96% from 100 mg of the crude petroleum ether extracts in one-step separation.     

Preparative separation of liquiritigenin and glycyrrhetic acid from Glycyrrhiza uralensis Fisch using hydrolytic extraction combined with high-speed countercurrent chromatography

The objective of this paper was to develop a preparative method for the isolation and purification of liquiritigenin and glycyrrhetic acid from Glycyrrhiza uralensis Fisch using hydrolytic extraction combined with high-speed countercurrent chromatography (HSCCC). Liquiritigenin and glycyrrhetic acid were well hydrolyzed from liquiritin and glycyrrhizic acid by hydrochloric acid, respectively. The optimal extraction conditions were obtained by single-factor and orthogonal experiments, which were 100% ethanol, 1.5 mol/L hydrochloric acid, 1:25 ratio of solid to liquid, and extracted 2 h for one time. Using the two-phase solvent system of n-hexane-ethyl acetate-methanol–water (4:5:4:5, v/v), 2.1 mg liquiritigenin (the purity was 96.5% with a recovery of 87.6%) and 12.3 mg glycyrrhetic acid (the purity was 97.1% with a recovery of 74.4%) were obtained from 315-mg crude extraction by HSCCC. The retention ratio of stationary phase was 47.2%. Their structures were identified by HPLC, melting points, UV, Fourier-transform infrared, Electrospray ionization-MS, ¹H nuclear magnetic resonance (NMR), and ¹³C NMR spectra. According to the antioxidant activity assays, liquiritigenin and glycyrrhetic acid had some scavenging abilities on 1,1-diphenyl-2-picrylhydrazyl free radicals; liquiritigenin had stronger scavenging ability on hydroxyl radicals.     

Preparative isolation of diterpenoids from Salvia bowleyana Dunn roots by high-speed countercurrent chromatography combined with high-performance liquid chromatography

The root of Salvia bowleyana Dunn (Lamiaceae) is used as a traditional Chinese medicine that has multiple therapeutic effects. In this study, an efficient strategy was developed to separate diterpenoid compounds, which are the main active ingredients in Salvia bowleyana Dunn roots, from complex crude extracts by high-speed countercurrent chromatography combined with preparative high-performance liquid chromatography. A two-phase solvent system comprising n-hexane–ethyl acetate–methanol–water (7:3:7:3, v/v/v/v) was selected for high-speed countercurrent chromatographic separation. Three major diterpenoids, 6α-hydroxysugiol ( 7 ), sugiol ( 8 ), and 6, 12-dihydroxyabieta-5,8,11,13-tetraen-7-one ( 9 ) were obtained at purities of 98.9, 95.4, and 96.2%, respectively, and minor diterpenoids were enriched via one-step separation. The enriched minor diterpenoids were further purified by continuous preparative high-performance liquid chromatography to yield two new norabietanoids ( 1 , 6 ) and four known compounds ( 2 – 5 ). The structures of these new compounds were determined using NMR spectroscopy, high-resolution electrospray ionization mass spectrometry, and electronic circular dichroism spectroscopy. The results suggest that high-speed countercurrent chromatography combined with preparative high-performance liquid chromatography efficiently isolates diterpenoids, including minor components, from complex natural products.     

Preparative separation of rhein from Chinese traditional herb by repeated high-speed counter-current chromatography

High-speed counter-current chromatography (HSCCC) was repeatedly used for isolation and purification of rhein from Rheum officinale Baill (Dahuang) with a two-phase solvent system composed of n-hexane-ethyl acetate-methanol-water (3:7:5:5, v/v), which had been selected by analytical (HSCCC). Using two preparative units of the HSCCC centrifuge, about a 500 mg amount of the crude extract was separated, yielding 6.7 mg of rhein at a high purity of over 97%.     

Isolation of high-purity casticin from Artemisia annua L. by high-speed counter-current chromatography

Following an initial clean-up step on silica, high-speed counter-current chromatography (HSCCC) was used to purify a flavone, casticin (5,3'-dihydroxy-3,6,7, 4'-tetramethoxyflavone), from an extract of the dried leaves of Artemisia annua L. The two-phase solvent system used was composed of n-hexane-ethyl acetate-methanol-water at an optimized volume ratio of 7:10:7:10 (v/v). HSCCC separation of 226.4 mg of crude sample (containing casticin at 16.5% purity after silica gel clean-up) yielded 36.3 mg of casticin with a purity of over 99% and 96.2% recovery. Identification of the target compound was performed by (1)H NMR, (13)C NMR, two-dimensional NMR, electrospray ionization MS, IR and UV.     

Preparative separation of isovitexin and isoorientin from Patrinia villosa Juss by high-speed counter-current chromatography

High-speed counter-current chromatography (HSCCC) with a solvent system composed of ethyl acetate-n-butanol-water (2:1:3, v/v/v) was used to isolate and separate two C-glycosylflavones from Patrinia villosa Juss, a traditional Chinese medicine. The separation produced 42.9 mg isovitexin and 20.1 mg isoorientin with purities of 99.3% and 98.5%, respectively as determined by high-performance liquid chromatography (HPLC) in one step elution from 250 mg crude extract, and identification was performed by MS, 1H NMR and 13C NMR. It is the first report of discovering isovitexin and isoorientin from the plant of Patrinia genus.     

Preparative separation of five flavones from flowers of Polygonum cuspidatum by high‐speed countercurrent chromatography

A preparative high‐speed countercurrent chromatography method was successfully used for the isolation of five minor flavones from Polygonum cuspidatum flowers. Among them, three compounds were obtained from P. cuspidatum for the first time. A twin two‐phase solvent system composed of n‐hexane/ethyl acetate/ethanol/water (1:6:3:6, v/v/v/v) and petroleum ether/ethyl acetate/methanol/water (2:4:3:3, v/v/v/v) was developed. Compounds were obtained from the fraction B and fraction C prepurified by silica gel column chromatography. Five minor compositions, 6.8 mg of hesperidin, 11.2 mg of phloridzin, 4.9 mg of luteolin, 5.3 mg of hyperin, and 3.7 mg of luteoloside were obtained from 140 mg of the fraction B and 110 mg of fraction C with a purity of 95.3, 96.4, 98.0, 96.8, and 95.3%, respectively, as determined by high‐performance liquid chromatography. The structures of these compounds were identified by ¹H and ¹³C NMR spectroscopy.     

Preparative separation of six antimycin A components from antimycin fermentation broth by high-speed counter-current chromatography

A method of using high-speed counter-current chromatography (HSCCC) was established for preparative isolation and purification of antimycin A components from antimycin fermentation broth. Six antimycin A components were successfully purified for the first time by HSCCC with a two-phase solvent system composed of n-hexane–ethyl acetate–methanol–water (5:2:4:1, by volume). Total of 20 mg antimycin A₄(a or b), 25 mg antimycin A₃(a or b), 21 mg antimycin A₈(a or b), 34 mg antimycin A₂(a or b), 26 mg antimycin A₁(a or b) and 34 mg antimycin A₁(a or b) with the purities of 93.2, 98.6, 96.2, 94.1, 94.9 and 96.7%, respectively, determined by high-performance liquid chromatography (HPLC), were yielded from 200 mg crude sample only in one HSCCC run.     

Preparative separation of six terpenoids from Wedelia prostrata Hemsl. by two-step high-speed counter-current chromatography

Terpenoids are principal chemical compounds of Wedelia prostrata Hemsl. and have different biological activities, thus the study on separation and purification of terpenoids from W. prostrata Hemsl. is necessary. In this paper, high-speed counter-current chromatography (HSCCC) was successfully established for preparative isolation and purification of terpenoids from extracts of petroleum ether fraction which extracted from whole herbs of W. prostrata Hemsl. In the process, a total of 750?mg of sample was prepared for HSCCC isolation. Terpenoids were separated and purified with the two-phase solvent system n-hexane–ethyl acetate–methanol–water (9:1:9:1, 19:1:19:1, v/v/v/v). Therefore, 5α-hydroxy-2-oxo-p-menth-6(1)-ene (4.4?mg), 3α-angeloyloxy-ent-kaur-16-en-oic acid (5.6?mg), 3α-tigloyloxy-ent-kaur-16-en-oic acid (5.7?mg), 3α-phenylpropionoyloxy-ent-kaur-16-en-oic acid (7.3?mg), 3α-senecioyloxy-ent-kaur-16-en-oic acid (11.4?mg), and kaurenoic acid (12.3?mg) were obtained from W. prostrata Hemsl. and their purities reached standard determined by HPLC. Among them, 3α-phenylpropionoyloxy-ent-kaur-16-en-oic acid and 5α-hydroxy-2-oxo-p-menth-6(1)-ene were first isolated with high quantity as a useful chemical resource. The structures of these compounds were identified by ESI-MS, ¹H-NMR, and ¹³C-NMR. The present results demonstrated that high-speed counter-current chromatography was a fast and efficient technique for preparative separation of six terpenoids from W. prostrata Hemsl. which provided a useful reference to solve the problem of their sample availability for drug development.     

高速逆流色谱分离弥勒獐牙菜中的总生物碱

弥勒獐牙菜又称青叶胆 (ＳｗｅｒｔｉａＭｉｌｅｅｎｓｉｓ) ,为龙胆科獐牙菜属植物 ,产地红河洲弥勒[1 ] 。该属植物资源丰富 ,药用价值较高[2 ] 。民间用于治疗急性病毒性肝炎、温热黄疸、食欲不振、尿路感染、带状疱疹等。龙胆宁碱 ( ｇｅｎｔｉａｎｉｎｅ)、次龙胆碱 ( ｇｅｎｔｉａｎａｄｉｎｅ)、龙胆黄碱 ( ｇｅｎｔｉｏｆａｖｉｎｅ)是獐牙菜中的有效成分 ,并具有抗炎、解毒、降压等作用。本文采用高速逆流色谱对弥勒獐牙菜中总生物碱进行分离[3] ,一次进样 2 0ｍｇ ,得到了 3种生物碱。1　实验部分1 1　仪器与试剂ＧＳＩＯＡＺ型…     

Preparative separation and purification of squalene from the microalga Thraustochytrium ATCC 26185 by high-speed counter-current chromatography

High-speed counter-current chromatography (HSCCC) was successfully applied to the preparative separation and purification of squalene from microalgae. Crude squalene was obtained from the microalga Thraustochytrium ATCC 26185 by extraction with organic solvents. The crude squalene was further separated using a waterless two-phase solvent system composed of n-hexane-methanol (2:1, v/v). The upper phase as the mobile phase was pumped into the column at a flow-rate of 2.0 ml min(-1) in the tail-to-head elution mode. The fractions purified and collected were analyzed by high-performance liquid chromatography. The method yielded 0.2 mg squalene at 96% purity from 150 mg of the crude squalene (0.14% squalene) with 95% recovery. The separation of squalene by HSCCC was completed in 90 min.     

Group separation of trace rare-earth elements by countercurrent chromatography for their determination in high-purity calcium chloride

A method has been developed for the separation of the entire group of rare-earth elements from high-purity calcium chloride by countercurrent chromatography, and subsequent determination of the elements by ICP– MS. A solution of diphenyl[dibutylcarbamoylmethyl]phosphine oxide in chloroform (0.5 mol L^–1) has been chosen as reagent for the extraction and preconcentration of trace rare-earth elements from aqueous 5% CaCl2 solution, 3 mol L^–1 in HNO3 and 0.1 mol L^–1 in HClO4. The analytes are back-extracted into a small volume of water and the aqueous eluate is subjected to ICP–MS measurements. The performance characteristics of the procedure developed have been checked by use of the standard addition technique and a real CaCl2 sample (Merck product) has been analyzed. The results obtained demonstrate the applicability of countercurrent chromatography to the determination of ultratrace elements. Received: 6 December 2000 / Revised: 27 February 2001 / Accepted: 6 March 2001     

Preparative separation of isoflavone components in soybeans using high-speed counter-current chromatography

The analysis of ionic micro-contamination is of growing importance in the disc drive industry. Through the use of ion chromatography, cleanliness of drive components can be assessed. An objective to improve quantification of highly reactive inorganic ions that exist within the drive environment was implemented. This paper presents a new extraction technique used to determine low levels of ammonium, by microbore ion chromatography. Various chemical compounds within adhesive formulations can be a source of extractable ammonium. By combining this new extraction method with ion chromatography, the percentage of different chemical compounds within adhesive formulations was correlated to the level of extractable ammonium observed.     

Group separation of trace rare-earth elements by countercurrent chromatography for their determination in high-purity calcium chloride

A method has been developed for the separation of the entire group of rare-earth elements from high-purity calcium chloride by countercurrent chromatography, and subsequent determination of the elements by ICP-MS. A solution of diphenyl[dibutylcarbamoylmethyl]phosphine oxide in chloroform (0.5 mol L(-1)) has been chosen as reagent for the extraction and preconcentration of trace rare-earth elements from aqueous 5% CaCl2 solution, 3 mol L(-1) in HNO3 and 0.1 mol L(-1) in HClO4. The analytes are back-extracted into a small volume of water and the aqueous eluate is subjected to ICP-MS measurements. The performance characteristics of the procedure developed have been checked by use of the standard addition technique and a real CaCl2 sample (Merck product) has been analyzed. The results obtained demonstrate the applicability of countercurrent chromatography to the determination of ultratrace elements.     

Isolation of bitter acids from hops (Humulus lupulus L.) using countercurrent chromatography

Commercially available hops (Humulus lupulus L.) bitter acid extracts contain a mixture of three major congeners (co-, n-, and ad-) in addition to cis/trans diastereomers for each congener. Individual isomerized α-acids were obtained by the consecutive application of two separate countercurrent chromatography methods. First, individual isomerized α-acid congeners as a mixture of cis/trans diastereomers were obtained using a solvent system consisting of hexane and aqueous buffer. The second purification, capable of separating cis/trans diastereomers, was accomplished using a quaternary solvent system; an alternative procedure using β-cyclodextrin followed by countercurrent chromatography was also investigated. The NaBH(4) reduction of the purified isomerized α-acid compounds followed by countercurrent chromatography purification resulted in individual ρ iso α-acids (>95%). Similarly, catalytic hydrogenation of the purified isomerized α-acid compounds followed by countercurrent chromatography purification produced individual tetrahydro isomerized α-acids (>95%). Reported herein is a widely applicable approach that focuses on three critical variables--solvent system composition, pH, and buffer-to-sample ratio--that enable the efficient purification of individual bitter acids (≥95%) from commercially available hops extracts.     

Preparative isolation and purification of flavone compounds from sophora japonica L. by high-speed counter-current chromatography combined with macroporous resin column separation

High-speed counter-current chromatography combined with macroporous resin column separation was applied to the isolation and purification of genistein-7,4'-di-O-beta-D-glucoside (I), genistein-7-O-beta-D-glucopyranoside-4'-O-[(alpha-L-rhamnopyransoyl)-(1-2)-beta-D-glucopyranoside] (II), kaempferol-3-O-beta-D-sophoroside(III), quercetin-3-O-beta-L-ramnopyranosyl-(1 - 6)-beta-D-glucopyranoside (IV), genistein-4'-beta-L-rhamnopyransoyl-(1 - 2)-alpha-D-glucopyranoside (V), and kaempferol-3-O-beta-L-ramnopyranosyl-(1 - 6)-beta-D-glucopyranoside (VI) from the Chinese medicinal herb Sophora japonica L. The crude extracts from the pericarps of Sophora japonica L. were pre-separated on a D-101 macroporous resin column and divided into two parts as sample 1 and sample 2. An 80-mg portion of sample 1 was separated by using n-butanol-acetic acid (1%) (5:5, v/v) as the two-phase solvent system and yielded 30.1 mg of compound I, 23.3 mg of compound II. A 120 mg portion of sample 2 was separated by using ethyl acetate-n-butanol-acetic acid (1%) (5:0.8:5, v/v) as the two-phase solvent system and yielded 5.5 mg of compound III, 31.7 mg of compound IV, 37.4 mg of compound V, and 6.2 mg of compound VI. The purities of compounds I, II, III, IV, V, and VI were 98.7, 98.2, 97.8, 98.5, 99.3, and 98.9%, respectively, as determined by HPLC. The chemical structures of these components were identified by 1H-NMR and 13C-NMR.