应用色质联机对淫羊藿多糖结构的研究

淫羊藿多糖(Epimedium polysaccharide,EPS)能够刺激机体免疫系统,增强免疫应答功能,同时,淫羊霍多糖还有刺激骨髓DNA合成的作用.近年来对淫羊藿甙及淫羊藿总黄酮的研究较多,而对淫羊藿多糖的研究较少.用化学实验方法研究淫羊藿多糖的结构,存在时间长、实验步骤多等问题.寻找快速、准确的测试手段,对研究淫羊藿多糖的结构有着重要的意义.本文从淫羊藿茎叶中提取水溶性多糖,经甲基化后,再经色质联机(GC-MS)分析,初步确定了糖苷的键型,并用化学实验方法进行了验证.     

工业制备高效液相色谱法制备淫羊藿中的黄酮系列对照品

淫羊藿甙和朝藿定A、B、C是淫羊藿中重要的活性成分,本研究应用工业制备高效液相色谱从淫羊藿粗提物中分离制备了这4个成分。淫羊藿粗提物经大孔吸附树脂粗分离获得相应的组分后,利用工业制备高效液相色谱完成精制纯化。采用自装填Chromatorex C18制备柱(220 mm×77 mm, 10 μm),乙腈-水(26:74或30:70, v/v)为流动相进行洗脱,在35 min内,实现了这4种成分的基线分离及规模制备。从300 g粗提物(总黄酮含量约20%)中获得淫羊藿甙33 g、朝藿定C 4.6 g、朝藿定B 3.7 g和朝藿定A 0.6 g,产品纯度均达到98%以上。此方法通过两步分离即可实现这4种成分的完全分离,具有快速高效、产品纯度高的特点,适于淫羊藿中淫羊藿甙、朝藿定A、B、C系列对照品的规模制备。     

两种前处理方法对LC - MS/MS测定家兔血清中淫羊藿黄酮类化合物基质效应的影响

考察了两种前处理方法对采用液相色谱-串联质谱联用法( LC - MS/MS)测定家兔血清中淫羊藿黄酮类化合物时基质效应的影响.家兔空白血清分别以乙酸乙酯液-液萃取和C18小柱固相萃取,提取前、后各自加入一定浓度的4种淫羊藿黄酮类化合物的混合对照品溶液(淫羊藿苷、淫羊藿次苷I、淫羊藿次苷Ⅱ、淫羊藿素),评价家兔血清中淫羊...     

淫羊藿属药材反相高效液相色谱指纹图谱及质量评估研究

用一种新的多台阶梯度洗脱的反相高效液相色谱(RPLC)法, 首次建立了秦岭山区产4种产地及亚属均不相同的淫羊藿属药材的由9种成分组成的色谱指纹图谱. 并以淫羊藿甙为内标作为相对标准, 对其质量进行了评估. 然而, 因其产地和亚属的不同, 指纹图谱又各有特征, 发现产地不同的两种淫羊藿亚属, 箭叶淫羊藿的RPLC指纹图谱由12个色谱峰组成. 还提出用相对含量比较法对各种类淫羊藿中9种成分的含量进行了质量评价. 本工作所建立的淫羊藿属药材的RPLC指纹图谱法从试样提取的精密度、稳定性、图谱重复性等方面均符合《中药注射剂指纹图谱研究的技术要求(暂行)》中的有关规定. 该方法具有重现性好, 特征性强, 方法简便、快速等特点, 有可能成为淫羊藿药材种属判断、质量评估的标准, 也会对未来开发淫羊藿中其他有效成分提供科学的依据.     

高效液相色谱法测定箭叶淫羊藿中淫羊藿苷的含量

箭叶淫羊藿用70%乙醇回流提取,取部分提取液直接干燥得淫羊藿提取物,以高效液相色谱法测定箭叶淫羊藿中淫羊藿苷的含量,色谱柱为InertsilODS-3柱,流动相为乙腈-水(27∶73),检测波长为270nm。在此条件下,淫羊藿苷与其它黄酮醇苷的色谱峰分离完全,平均回收率为99.46%。该法可用于淫羊藿药材的质量控制。     

动态超声辅助萃取与HPLC联用测定淫羊藿中黄酮类化合物

建立了动态超声辅助萃取与高效液相色谱在线联用系统,用于测量淫羊藿中黄酮类化合物。萃取过程在一个循环体系中完成,萃取完成后,通过采样环采集20μL萃取液,萃取液被流动相载入色谱系统进行分离检测。4种黄酮类化合物用HPLC–MS区分,通过比较色谱峰面积选择优化萃取条件。选择50℃的水浴温度,50%的乙醇作为萃取剂,萃取剂流速为1.5 mL/min,萃取时间为8 min,样品量为15 mg。用该法测量淫羊藿样品中4种黄酮类化合物,日内、日间精密度分别为1.05%～2.05%,0.30%～3.63%(n=6)。淫羊藿中的主要化合物淫羊藿苷的加标回收率为95.2%。该方法可用于测量淫羊藿中的黄酮类化合物。     

淫羊藿炮制前后UPLC-PDA-MS 的指纹图谱研究

建立了朝鲜淫羊藿和柔毛淫羊藿药材的超高效液相色谱(UPLC)指纹图谱分析方法, 实验结果表明, 两个品种的指纹图谱差别较大, 朝鲜淫羊藿标出35 个共有峰, 质谱鉴定了26 个峰, 柔毛淫羊藿标出13 个共有峰, 质谱鉴定了9个峰; 研究了朝鲜淫羊藿和柔毛淫羊藿炮制前后UPLC 指纹图谱的变化规律, 指纹图谱发生了五处变化. 该法快速、简便, 重现性好, 从整体上显示淫羊藿药材和炮制品的特征, 为淫羊藿的生品和炮制品的质量控制提供了有效手段.     

HPLC法同时测定淫羊藿中朝藿定A、B、C与淫羊藿苷的含量

建立了同时测定淫羊藿中朝藿定A、B、C与淫羊藿苷含量的高效液相色谱方法。淫羊藿样品经超声波提取,以50%(φ)乙醇溶液为溶剂,在温度50℃、料液比1∶60条件下超声波提取30 m in,共提取2次。色谱条件:ZORBAX SB-C8色谱柱(5μm,4.6×250 mm);流动相A为乙腈,B为1%乙酸溶液;梯度洗脱;紫外检测波长为270 nm。上述4种类黄酮的标准曲线在6.6~33.0 mg/L(朝藿定A、淫羊藿苷)或6.6~55.0mg/L(朝藿定B、C)范围内呈良好的线性关系(r>0.99);加标回收率在97%~102%之间;相对标准偏差小于2%(n=5)。测得不同产地心叶淫羊藿叶片中4种类黄酮的质量分数差异较大;朝藿定A广泛分布于淫羊藿属中。本方法在淫羊藿药材质量控制中具有一定的参考价值。     

离子对色谱法测定万乳康注射液中淫羊藿苷和盐酸左旋咪唑含量

建立了反相离子对色谱法同时测定万乳康样品中淫羊藿苷和盐酸左旋咪唑的含量。本法使用Shim-pack VP-ODS色谱柱(250×4.6 mm,5μm),该流动相为65%甲醇(V/V),10.0 mmol/L的十二烷基磺酸钠,pH=3.0;等度洗脱样品中的淫羊藿苷和盐酸左旋咪唑。紫外检测波长270 nm。结果表明:淫羊藿苷测定的线性范围为2.73~54.58μg/mL,加标回收率为99.45%~100.69%,理论塔板数达6 641;盐酸左旋咪唑测定的线性范围为26.23~524.54μg/mL,加标回收率为99.58%~100.23%,理论塔板数5 564。该方法可用于淫羊藿提取物和万乳康样品中的淫羊藿苷和盐酸左旋咪唑的测定。     

淫羊藿素的合成

淫羊藿素是淫羊藿苷的苷元,具有抗骨质疏松和调节雌激素等多种生物活性.以间苯三酚为原料,经Houben-Hoesch反应、一锅法Algar-Flynn-Oyamada反应和铕促异戊烯基重排等8步反应实现了淫羊藿素的合成,总收率4.2%.中间体及最终产物的结构均通过NMR和HRMS进行了表征.     

Separation and purification of both tea seed polysaccharide and saponin from camellia cake extract using macroporous resin

A novel method to separate and purify tea seed polysaccharide and tea seed saponin from camellia cake extract by macroporous resin was developed. Among four kinds of resins (AB‐8, NKA‐9, XDA‐6, and D4020) tested, AB‐8 macroporous resin possessed optimal separating capacity for the two substances and thus was selected for the separation, in which deionized water was used to elute tea seed polysaccharide, 0.25% NaOH solution to remove the undesired pigments, and 90% ethanol to elute tea seed saponin. Further dynamic adsorption/desorption experiments on AB‐8 resin‐based column chromatography were conducted to obtain the optimal parameters. Under optimal dynamic adsorption and desorption conditions, 18.7 and 11.8% yield of tea seed polysaccharide and tea seed saponin were obtained with purities of 89.2 and 96.0%, respectively. The developed method provides a potential approach for the large‐scale production of tea seed polysaccharide and tea seed saponin from camellia cake.     

大孔树脂-高速逆流色谱法分离纯化地黄中毛蕊花糖苷

该文建立了大孔树脂-高速逆流色谱分离中药材地黄中有效成分毛蕊花糖苷的方法。考察了4种大孔树脂对地黄粗提物中毛蕊花糖苷的静态吸附与解吸情况,其中D101大孔树脂对目标成分的吸附率与解吸率最理想,实验结果表明体积分数为10%的乙醇洗脱得到的毛蕊花糖苷含量最高,目标成分含量从4.9%提高到32.6%。最后,部分纯化的样品（165 mg）采用高速逆流色谱进一步纯化,两相溶剂系统由乙酸乙酯-正丁醇-水（1：4：5,v/v/v）组成,分离得到45 mg纯度为96%的毛蕊花糖苷。     

大孔吸附树脂分离纯化异甘草素的研究

研究大孔吸附树脂分离纯化异甘草素的工艺条件及参数。通过研究HPD-600、D4020、D101、AB-8、NKA-II、AL-2和NKA-9树脂对异甘草素的吸附和解吸附能力,筛选最佳树脂为AB-8,并研究了其对异甘草素的吸附和解吸附性能,确定了最佳的吸附与解吸附工艺参数,吸附:pH=5,室温,流速1.5BV/h,溶液处理量为5BV;脱附:洗脱剂为70%的乙醇溶液,流速1BV/h,洗脱剂用量4.5BV。异甘草素样品溶液经AB-8树脂吸附与脱附后回收率为76.7%,纯度由2.02%提高到29.1%,提高了14.4倍。实验结果表明,AB-8树脂对异甘草素的吸附量大,脱附容易,可以应用于异甘草素的分离纯化。     

一种基于R语言的大孔吸附树脂预测模型的构建

针对精准筛选高选择性分离中药多糖的大孔吸附树脂时间冗长、操作繁琐的现状,该文构建了一种快速筛选大孔吸附树脂的预测模型。采用R语言建立大孔吸附树脂参数、葡聚糖分子量与吸附量之间的多源信息模型,利用多源信息模型快速预测和筛选对中药多糖具有最佳吸附效果的大孔吸附树脂类型。所建多源信息模型的相关系数(r2)为0.9012,P值为0.000782,均方根误差(RMSE)为19.89。采用枸杞多糖对构建的多源信息模型进行验证,利用该模型预测LX-T19、LX-T81、LX-20、LX-1180和D101型大孔吸附树脂对枸杞多糖的吸附效果,结果发现最佳大孔吸附树脂为LX-20,其吸附量为117.40 mg·g-1,验证实验得到其实际吸附量为111.23 mg·g-1。结果表明,所建立的多源信息预测模型准确、可靠,对精准、快速筛选分离纯化中药多糖的大孔吸附树脂具有参考价值。     

大孔吸附树脂分离纯化金银花绿原酸研究

以金银花粗提物为原料,比较了NKA-2、D1400、聚酰胺、HP2MGL、ADS-21、D101及AB-8 7种大孔吸附树脂对金银花绿原酸静态吸附与解吸的效果,并通过单因子实验、正交试验与验证实验,优化了树脂分离纯化金银花绿原酸的工艺技术参数.结果表明,NKA-2树脂吸附效果最好,静态饱和吸附量可达212.17 mg/...     

大孔吸附树脂对辣椒素类物质的富集

辣椒;辣椒素;辣椒素类物质;吸附树脂;分离     

Adsorption and Desorption Characteristics of Total Flavonoids from Acanthopanax senticosus on Macroporous Adsorption Resins

We examined the application of six different resins with the aim of selecting a macroporous resin suitable for purifying Acanthopanax senticosus total flavonoids (ASTFs) from Acanthopanax senticosus crude extract (EAS) by comparing their adsorption/desorption capacities, which led to the selection of HPD-600. Research on the adsorption mechanism showed that the adsorption process had pseudo-second-order kinetics and fit the Freundlich adsorption model. Moreover, the analysis of thermodynamic parameters indicated that the adsorption process is spontaneous and endothermic. The optimal conditions for purification of ASTFs were determined as sample pH of 3, 60% ethanol concentration, and 3 BV·h⁻¹ flow rate, for both adsorption and desorption, using volumes of 2.5 and 4 BV, respectively. The application of macroporous resin HPD-600 to enrich ASTFs resulted in an increase in the purity of total flavonoids, from 28.79% to 50.57%. Additionally, the antioxidant capacity of ASTFs was higher than that of EAS, but both were lower than that of L-ascorbic acid. The changes in ASTFs compositions were determined using ultra-performance liquid chromatography–tandem mass spectrometry (UHPLC–MS/MS), with the results illustrating that the levels of seven major flavonoids of ASTFs were increased compared to that in the crude extract.     

Isolation and enrichment of Ginkgo biloba extract by a continuous chromatography system

In this study, an effective method was developed for the isolation and enrichment of Ginkgo biloba extract by continuous chromatography system. The adsorption and desorption ratio of flavonoids as main index, the best macroporous resin was screened out from six resins by static adsorption and desorption tests. At the same time the adsorption and desorption parameters were optimized by dynamic adsorption and desorption tests. Under optimal parameters, five operations consisting of loading, washing, desorbing, regenerating, and balancing were integrated across the continuous chromatography system for the purpose of refining 66 L of crude extract solution. The results were as follows, 198.22 g of Ginkgo biloba extracts was produced, which contained 65.83 g of flavonoids and 15.44 g of lactones. The content of flavonoids and lactones increased from 2.76 and 0.72% in the crude extract to 33.21 and 7.79%, with a recovery yield of 91.26 and 81.21%. Methodology validation showed that the proposed method had high stability and reproducibility. Compared with the traditional macroporous resin method, the proposed method had a short processing time and low solvent consumption. Our studies indicated that the newly developed method is an effective procedure for the isolation and enrichment of Ginkgo biloba extract.     

A green and efficient protocol for large‐scale production of glycyrrhizic acid from licorice roots by combination of polyamide and macroporous resin adsorbent chromatography

A green and efficient method for large‐scale preparation of glycyrrhizic acid from licorice roots was developed by combination of polyamide and macroporous resin. The entire preparation procedure consisted of two simple separation steps. The first step is to use polyamide resin to remove licorice flavoniods from the licorice crude extract. Subsequently, various macroporous resins were tried to purify glycyrrhizic acid, and HPD‐400 showed the most suitable adsorption and desorption properties. Under the optimized conditions, a large‐scale preparation of glycyrrhizic acid from licorice roots was carried out. A 20 kg raw material produced 0.43 kg of glycyrrhizic acid using green aqueous ethanol as the solvent. The purity of glycyrrhizic acid was increased from 11.40 to 88.95% with a recovery of 76.53%. The proposed method may be also extended to produce large‐scale other triterpenoid saponins from herbal materials.     

采用大孔型树脂除去照相明胶中微量Fe3+的研究

利用大孔树脂吸附和分离照相明胶中的微量铁，比较了6种树脂对微量铁的吸附效果，讨论了温度等因素对树脂吸附微量铁的影响．结果显示，D412大孔螯合树脂对铁的吸附效果较好；宜选用NaCl和络合剂EDTA混合溶液将树脂再生转化为Na型；采用D412大孔螯合型、732强硬型和711强碱型3种树脂的串联组合处理方式，除铁效率达50%-90％；容液pH值对Fe^3 在D412树脂上的吸附行为影响较小．