人参皂苷Rb3对胰脂肪酶的抑制作用

采用硅胶柱层析、JTY树脂分离制备人参皂苷Rb3,薄层板(TLC)跟踪,高效液相色谱法(HPLC)检测。目的是研究西洋参叶中不同浓度的人参皂苷Rb3对胰脂肪酶的抑制作用影响,从而表明人参皂苷Rb3在抗肥胖中的作用。用制得的人参皂苷Rb3,在卵磷脂所乳化的甘油三酯的检测系统中进行体外胰脂肪酶抑制实验。结果表明:制得的人参皂苷Rb3经过三种不同展开剂,薄层板展开,均为一个点,进一步经HPLC检测其纯度为93.2%。胰脂肪酶抑制试验结果表明人参皂苷Rb3在浓度为0～1 mg/mL时,其抑制率达到85.11±0.409%,而且远远高于西洋参叶提取物。本文通过胰脂肪酶抑制试验表明Rb3具有抗肥胖作用,其抑制机制有待进一步研究。     

西洋参总皂苷酶水解产物成分研究

西洋参总皂苷经β-糖苷酶催化水解,采用HPLC检测分析确定西洋参总皂苷中的主要原人参二醇型皂苷Rb1、Rd、Rc和Rb2已经完全被水解。水解产物通过反复硅胶柱层析和反向硅胶柱层析分离纯化得到7个皂苷,通过NMR谱图分析分别鉴定为人参皂苷compound K(1)、人参皂苷Mc(2)、人参皂苷Rg1(3)、人参皂苷Rg2(4)、人参皂苷Re(5)、人参皂苷F1(6)和拟人参皂苷F11(7)。β-糖苷酶催化西洋参总皂苷水解实验表明,西洋参中原人参二醇型皂苷的水解产物是人参皂苷compound K和人参皂苷Mc。     

人参皂苷Rb1、Rc对大鼠胚胎脑发育及GPx基因表达的影响

目的观察人参皂苷Rb1、Rc对sD大鼠胚胎脑发育及谷胱甘肽过氧化物酶（61utathione peroxidase,GPx）基因表达的影响。方法实验选用全胚胎体外培养方法,根据Van Maele-Fabry等制定的形态学分析系统进行形态学检测,实验随机分为对照组、人参皂苷Rbl（10,45和90ug／ml）组和人参皂苷Rc（10,45和90ug／ml）组,采用半定量RT—PCR分析人参皂苷Rb1和人参皂苷Rc对胚胎谷胱甘肽过氧化物酶基因表达的影响。结果与对照组比较,人参皂苷Rb1（10,45和90ug／ml）组胚胎脑、前脑、中脑与后脑的长度值没有统计学意义（P〉0．05）;与对照组比较,人参皂苷Rc（10,45和90ug／m1）组前脑、中脑与后脑的长度值显著增加（P〈0．05）。RT—PCR结果显示,人参皂苷Rb1（10,45和90ug／ml）组cGPx与phGPx mRNA的表达水平与对照组比较均没有统计学意义（P〉O．05）,而pGPxmRNA的表达水平在浓度50和100ug／ml时显著增加（P〈0．05）。人参皂苷Rc（10,45和90ug／ml）组cGPx与phGPxmRNA的表达水平与对照组比较均没有统计学意义（P〉0．05）,而pGPxmRNA的表达水平在各种浓度的Rc作用后都增加,且在溶度10和45ug／ml浓度时增加显著（P〈0．05）。结论一定剂量的人参皂苷Rc能促进胚胎脑的发育,一定剂量的人参皂苷Rb1、Rc能明显增强胚胎脑pGPx mRNA的表达水平。     

人参皂苷Rb1对油酸诱导HepG2细胞脂肪堆积的影响作用

通过建立体外肝细胞脂肪堆积模型评价人参皂苷Rb1清除肝细胞脂肪堆积的能力.方法:1 mmol· L-1油酸诱导建立HepG2细胞脂肪堆积模型,从噻唑兰染色吸光度(MTT值)、甘油三酯(TG值)、细胞内脂滴形态3方面评价人参皂苷Rb1的作用.结果:人参皂苷Rb1可明显减轻细胞内脂质堆积现象,显著降低细胞中TG含量,其中100 μg·mL-1人参皂苷Rb1对TG的清除率达37.9％.结论:人参皂苷Rb1具有良好的体外降脂活性,对脂肪肝有较好的预防效果.     

毁灭柱孢菌中一种人参皂苷Rb1水解酶的纯化及酶学性质研究

通过DEAE-纤维素阴离子交换层析、30％～80％（NH3）2SO3盐析、Sepharose CL-6B凝胶过滤层析和Mono Q HR5／5阴离子交换层析,从毁灭枉孢菌培养液中部分纯化出一种能够水解人参皂苷Rb,的β-葡萄糖苷酶F-I。F—I具有较好的pH稳定性和热稳定性,在pH4．0～11．0范围内和55℃以下表现出良好的β-葡萄糖苷酶活性,其最适pH为5．0,最适温度为55℃。EDTA、Cu^2＋和Zn^2＋对该酶活性有较强的抑制作用。底物专一性分析表明,F—I能高特异性水解人工合成的底物pNPG,还能水解β-葡萄糖苷键连接的二糖如纤维二糖和龙胆二糖,说明此酶为一种β-葡萄糖苷酶。F—I对人参皂苷Rb1表现了较强的水解活性,而对人参皂苷Rb2和Rc的水解活性较低。该酶水解人参皂苷Rb1的路径为Rb1→Rd→F2→C—K。F—I对人参皂苷Rb1的这种高效水解为稀有人参皂苷的工业制备奠定了基础。     

茉莉酸甲酯和水杨酸对西洋参愈伤组织生长和皂苷形成的影响CSCD

本文旨在探究不同诱导子对西洋参愈伤组织生长、相关酶活性及其人参皂苷含量的影响,在西洋参愈伤组织中,应用HPLC检测了添加诱导子茉莉酸甲酯(methyl jasmonate,MeJA)和水杨酸(salicylic acid,SA)后西洋参愈伤组织皂苷生物合成的变化。结果显示,MeJA抑制生长,但SA对其生长影响较小;2种诱导子均可以显著激活西洋参愈伤组织中超氧化物歧化酶(superoxide dismutase,SOD)、过氧化氢酶(catalase,CAT)、过氧化物酶(peroxidase,POD)活性和丙二醛(malondialdehyde,MDA)含量;培养基中MeJA浓度为100μmol/L时,愈伤组织中总皂苷含量和产量均达到最大值,人参皂苷Rg_(1)、Re、Rb_(1)、Rc的含量最高,在SA诱导子试验组中,当SA浓度为300μmol/L时,西洋参愈伤组织中总皂苷含量和产量均达到最大值,人参皂苷Rb_(1)的含量最高。结果表明,在西洋参愈伤组织中添加适当浓度MeJA和SA诱导子会提高人参皂苷化合物含量,其中以MeJA诱导人参总皂苷的效果最好,同时也会影响西洋参愈伤组织的生长量。说明在培养过程中添加外源诱导子,有利于提高西洋参愈伤组织中皂苷含量。     

外源人参皂苷对人参种子萌发和幼根抗氧化酶活性的影响

研究不同浓度外源人参皂苷(人参总皂苷,人参二醇组皂苷,人参三醇组皂苷, Rb族,Rb3,Re共4种皂苷混合物和两种单体皂苷)对人参种子萌发,幼苗根长、鲜重,幼根中抗氧化酶活性和MDA含量的影响.结果表明:所测试人参皂苷对人参种子萌发、人参幼苗根长生长和幼根鲜重增加均具有抑制化感效应,且抑制程度均随处理浓度的升高而增强;对人参幼根中抗氧化酶活性方面,不同浓度人参总皂苷,人参二醇组皂苷,人参三醇组皂苷处理后,人参根系中SOD,POD和CAT活性均有明显提高,呈现出各酶活性随浓度升高而逐渐增强的效应;人参皂苷Rb族处理后,SOD活性在低中浓度处理时,与对照差别不大,中高浓度处理后低于对照,POD活性在中高浓度处理后显著提高,高浓度处理后活性降幅较大难以恢复到对照水平,CAT活性均低于对照;人参皂苷Rb3处理后,SOD活性均低于对照水平,POD活性在低浓度处理时与对照相当,中高浓度处理后显著低于对照水平,CAT活性逐渐降低,在低中浓度处理时略高于对照,高浓度处理后低于对照水平;人参皂苷Re处理后,SOD和POD活性均显著低于对照.人参幼根中MDA含量均随着处理浓度的增加而升高.     

西洋参中8种人参皂苷类成分的UPLC-MS/MS定量分析

建立超高效液相色谱串联三重四级杆质谱法(UPLC-MS/MS)同时测定西洋参中8种人参皂苷类成分(人参皂苷Rb1、人参皂苷Rb2、人参皂苷Rb3、人参皂苷Re、人参皂苷Rc、人参皂苷Rd、人参皂苷Rg1和拟人参皂苷F11)的定量分析方法。采用Waters Acquity BEH C18柱(100 mm×2.1 mm,1.7μm)色谱柱,流动相为0.1%甲酸水(A)-乙腈(B),梯度洗脱,流速0.25 m L/min,柱温35℃。电喷雾电离源(ESI),采用多反应检测模式(MRM),以保留时间及定性离子对之间的相对丰度定性,以定量离子对峰面积进行定量。定量分析西洋参中8种人参皂苷类成分在考察的浓度范围内呈良好的线性关系(r0.99);回收率和RSD分别在95.65%~103.34%,0.38%~4.33%。本研究所建立的同时测定西洋参中8种皂苷类成分的UPLC-MS/MS定量分析方法简便、快捷、准确,可为综合评价西洋参的质量提供参考。     

蜗牛酶中一种人参皂苷Rb1水解酶的分离纯化

通过DEAE-Sepharose离子交换分段层析,DEAE-Sepharose离子交换梯度层析和SephadexG-100凝胶过滤层析三种方法的联用从中华白玉蜗牛消化酶中分离出一种人参皂苷Rb1水解酶。分离后该酶在SDS-PAGE上呈单一蛋白质务带。应用SDS-PAGE和凝胶过滤层析对分子量的测定,提示该酶是由4个分子量为110～115kD的相同亚基组成的同源四聚体。Rb1为底物的动力学参数Km和Vmax分别为0．790mmol／L和10．192μmol／min／mg。该酶对人参皂苷Rb1糖键进行有选择的水解,可水解人参皂苷Rb1C50位的一个糖苷键生成人参皂苷Rd。     

HPLC法同时测定人参皂苷Rb1、Rc、Rd、Rg3、CK和Rh2

目的:建立高效液相色谱法同时测定人参皂苷Rb1、Rc、Rd、Rg3、CK和Rh2的方法.方法:采用ODSC18(4.6 mm×150 mm)色谱柱,流动相乙腈-0.05%磷酸水,梯度洗脱,流速1 Ml/min,检测波长203 nm,柱温35 ℃.结果:人参皂苷Rb1、Rc、Rd、Rg3、CK和Rh2分离效果良好,线性关...     

Ginsenosides stimulate the growth of soilborne pathogens of American ginseng

Ginseng saponins (ginsenosides) were isolated from soil associated with the roots of commercially grown American ginseng (Panax quinquefolius L.), identified via LC-MS and quantified via analytical HPLC. The ginsenosides, including F(11), Rb(1), Rb(2), Rc, Rd, Re and Rg(1), represented between 0.02 and 0.098% (average 0.06%) of the mass of the soil collected from roots annually between 1999 and 2002. The same ginsenosides were also isolated from run-off of undisturbed plants grown in pots in a greenhouse using a root exudate trapping system. To investigate (1) whether these saponins could influence the growth of pythiaceous fungi pathogenic to ginseng, and (2) whether soil levels of ginsenosides were sufficient to account for any effects, bioassays were completed using a crude saponin extract and an ecologically relevant concentration of purified ginsenosides. Thus, when cultured on media containing crude saponins, the colony weight of both Phytophthora cactorum and Pythium irregulare was significantly greater than that of control, indicating a strong growth stimulation by ginsenosides. The growth of Pythium irregulare was also significantly stimulated after addition of an ecologically relevant, low concentration (i.e. 0.06%) of purified ginsenosides to culture medium. By contrast, growth of the saprotrophic fungus Trichoderma hamatum was slightly (but not significantly) inhibited under the same conditions. These results imply that ginsenosides can act as allelopathic stimulators of the growth of pythiaceous fungi in the rhizosphere, and this may contribute to the disease(s) of this crop.     

Determination of major ginsenosides in Panax quinquefolius (American ginseng) using high-performance liquid chromatography

In order to determine the active ingredients in root extracts of Panax quinquefolius (American ginseng), a gradient HPLC method involving UV photodiode array detection was applied to separate and quantify simultaneously the ginsenosides Rb1, Rb2, Rc, Rd, Re, Rf and Rg1. All ginseng saponins were baseline-resolved under the selected conditions, and the detection limits were 1.0 microg/mL or less. The method has been applied to analyse ginsenosides extracted from American ginseng cultivated in both Wisconsin and Illinois. Ginsenosides Re and Rb1 were the two main ginseng saponins in the root. The amounts of Re in 5- and 7-year Illinois-cultivated samples were greater than those found in ginseng cultivated for 3 or 4 years in Wisconsin, whereas the levels of Rb1 were greater in the younger Wisconsin samples.     

Biotransformation of Ginsenosides (Rb1, Rb2, Rb3, Rc) in Human Intestinal Bacteria and Its Effect on Intestinal Flora

Ginsenosides, including Rb₁, Rb₂, Rb₃ and Rc, belong to protopanaxadiol-type saponins in Panax ginseng C. A. Mey. Their contents are high in P. ginseng. They could inhibit oxidant stress, enhance immunity, lower blood sugar, resist tumor cells and facilitate other physiological activities. This study aimed to explore the interaction between ginsenosides Rb₁, Rb₂, Rb₃ and Rc and the intestinal flora of healthy people. It also sought to analyse the biotransformation products and pathways of these ginsenosides in in-vitro human intestinal bacteria and their effects on the diversity of human intestinal flora. Human intestinal bacteria were incubated with ginsenosides Rb₁, Rb₂, Rb₃ and Rc at 37 °C under anaerobic conditions. Samples were taken at different timepoints. The transformed products were identified by rapid high-resolution liquid chromatography-quadrupole time-of-flight mass spectrometry. After 48 h of transformation, the transformed product of ginsenosides Rb₁, Rb₂, Rb₃ and Rc was ginsenoside compound K. The transformation rates were 83.5 %, 88.7 %, 85.6 %, and 84.2 %. 16S rRNA sequencing technology was applied to the bioinformatic analysis of faecal samples incubated for 48 h. Relative to the blank control, the relative abundance of Firmicutes and Proteobacteria significantly increased at the phylum level. Moreover, the relative abundance of Bacteroidetes significantly decreased in ginsenosides Rb₁, Rb₂, Rb₃ and Rc. At the genus level, the relative abundance of Escherichia significantly increased, whereas that of Dorea, Prevotella and Megasphaera significantly decreased in all groups. These results showed that Rb₁, Rb₂, Rb₃ and Rc could improve the structure and diversity of human intestinal flora and balance the metabolic process.     

基于UPLC法测定离体大鼠及人源肠道菌对三七中人参皂苷代谢的差异

为探究人与大鼠肠道菌群对三七水煎液中三醇型人参皂苷Rg1、Re及二醇型人参皂苷Rb1、Rd体外代谢的差异性及发现其代谢产物原人参二醇PPD与原人参三醇PPT,实验利用UPLC方法测定三七水煎液分别与人、大鼠肠道菌群在厌氧条件下共培养24h后的孵育液中4种皂苷的含量及代谢产物PPD与PPT的含量。结果表明三七中含有三醇型人参皂苷Rg19.4500mg/g、Re1.8872mg/g,二醇型人参皂苷Rb18.5816mg/g、Rd1.9456mg/g。与人源肠道菌共培养后,三七中含有的二醇型、三醇型人参皂苷含量显著降低,重要的是,在培养液中检测到代谢产物PPD和PPT的存在,含量分别为0.2136mg/g及0.0344mg/g,与大鼠肠道菌共培养后,三七中含有的二醇型皂苷含量有轻微降低,而三醇型皂苷含量未见明显变化,但有少量PPT(0.0184mg/g)的生成。由此可见:在体外条件下,三七水煎液中人参皂苷会被人肠道菌群降解生成代谢产物PPD和PPT,而大鼠肠道菌群的降解产物却仅有PPT生成,二者存在种属差异。     

In vitro metabolism of ginsenosides by the ginseng root pathogen Pythium irregulare

The role of ginseng saponins (ginsenosides) as modulators or inhibitors of disease is vague, but our earlier work supports the existence of an allelopathic relationship between ginsenosides and soilborne microbes. Interestingly, this allelopathy appears to significantly promote the growth of the important ginseng pathogen, Pythium irregulare while inhibiting that of an antagonistic non-pathogenic fungus, Trichoderma hamatum. Herein we report on the apparent selective metabolism of 20(S)-protopanaxadiol ginsenosides by an extracellular glycosidase from P. irregulare. Thus, when P. irregulare was cultured in the presence of a purified (> 90%) ginsenoside mixture, nearly all of the 20(S)-protopanaxadiol ginsenosides (Rb1, Rb2, Rc, Rd, and to a limited extent G-XVII) were metabolized into the minor ginsenoside F2, at least half of which appears to be internalized by the organism. No metabolism of the 20(S)-protopanaxatriol ginsenosides (Rg1 and Re) was evident. By contrast, none of the ginsenosides added to the culture medium of the non-pathogenic fungus T. hamatum were metabolized. The metabolism of 20(S)-protopanaxadiol ginsenosides by P. irregulare appears to occur through the hydrolysis of terminal monosaccharide units from disaccharides present at C-3 and/or C-20 of ginsenosides Rb1, Rc, Rb2, Rd and G-XVII to yield one major product, ginsenoside F2 and one minor product (possibly G-III). A similar transformation of ginsenosides was observed using a crude protein preparation isolated from the spent medium of P. irregulare cultures.     

西洋参冠瘿组织悬浮培养及其人参皂苷类成分的分离

对西洋参冠瘿组织悬浮培养生长特征进行了考察,并对其悬浮培养物中的人参皂苷类成分进行了提取、分离和鉴定。研究得到了培养物最大生物量收获时间［18.62 g/L(dry weight)］及其中最高人参皂苷累积时间（620.4 mg/L on the 27thday）。培养基中碳源、磷、氨基氮、硝基氮的利用率分别为91.8%, 100%, 81% 和97%。利用现代分离纯化方法从培养物中分离得到了4种人参皂苷类成分,利用理化及谱学技术分别鉴定为假人参皂苷F11（pseudoginsenoside F₁₁,Ⅰ）, 人参皂苷Rd（ginsenoside Rd,Ⅱ）, 人参皂苷Rb1（ginsenoside Rb1 ,Ⅲ）和人参皂苷Rb3（ginsenoside Rb3,Ⅳ）。     

云南栽培西洋参皂甙的高压液相色谱定量分析

采用N-18ODS柱,以CH_3CN:H_2O(31:69 v/v)中加入50mM KH_2PO_4和CH_3CN:H_2O:H_3PO_4(20:80:0.5 v/v)为流动相,在202 nm紫外吸收波长检测下,测定了云南丽江引种栽培的西洋参中丙二酸人参皂甙(malonyl ginsenoside)Rb_1、Rb_2、Rc、人参皂甙(ginsenosidc)Rb_1、Rb_2、Rc、Rd、Ro和Rc、Rgl等10种主要皂甙的含量,讨论了不同的栽培年代、采收季节、地下部位以及商品等级中皂甙含量的变化,对该地区西洋参的生产提出了建议。     

Simultaneous determination of ginsenosides in Panax ginseng with different growth ages using high-performance liquid chromatography-mass spectrometry

The contents of ginsenosides in Panax ginseng not only vary in different parts of the root, but also exhibit yearly variation. In this study, an HPLC-MS method was established in order to simultaneously analyse ginsenosides Rb1, Rb2, Rb3, Rc, Rd, Re, Rf, Rg1 and Rg2. The concentration of ginsenosides in the tap root and root fibre were compared and the yearly variations of nine ginsenosides elucidated. The results indicate that the total content of ginsenosides in the main root and the root fibre both attain a maximum level in the fourth year of growth, although the amount in the former is much higher than in the latter. The variation in the content of ginsenosides during a 2-6 year period suggests that cultivated P. Ginseng can be harvested after the fourth year. The current results will provide useful information for the quality control and good agricultural practice farming of ginseng.     

土生曲霉转化三七中药材的研究

从土壤真菌中筛选出直接转化中药材三七化学成分的菌株YM31966,经鉴定该菌株为土生曲霉(Aspergillus terreus).以固态转化方式,结合化学提取分离方法,通过高效液相色谱、核磁共振及质谱等波谱检测,该菌株转化三七产物由三七皂苷nR2 、RX1和人参皂苷Rg1、Rd、Rh1、Rh4构成主体成分,而原三七成分Rb1、Rc、Re和R1、R3,R6等物质被分解.结果表明,土生曲霉是一株能转化中药材三七的微生物,它具有改变原三七化学成分,形成新化合物,以及提高某些原化合物成分含量的作用.     

人参皂苷粗提液对西洋参早期生长的化感效应

以西洋参幼苗为受体,采用玻璃砂培养方法研究不同浓度(25、50、100 mg·L-1)的人参皂苷粗提液对西洋参早期生长及生理代谢的影响,并用透射电镜观察幼苗根尖在处理过程中亚显微结构的变化.结果发现:(1)在不同浓度人参皂苷粗提液处理下,西洋参幼苗早期生长的各项生理指标均表现出不同程度的低促高抑现象.(2)各处理对西洋参幼根及幼苗的生物量无显著影响,但中高浓度处理对根长的抑制作用明显大于苗高.(3)中高浓度均对根系活力具有显著抑制作用(P<0.05);在高浓度下幼苗叶片中超氧阴离子自由基(O?2-)的产生速率和丙二醛(MDA)含量均显著增加,叶片及幼根中相对电导率也有明显增加,而叶片可溶性蛋白和叶绿素(Chl)合成受到轻微的促进作用,Chl含量随处理时间的延长虽呈逐渐下降趋势,但仍高于对照.(4)高浓度处理的幼苗根尖细胞的核膜膨胀、核仁变形,液泡膜解体,不能完成正常的生命活动.研究表明,不同浓度的人参皂苷粗提液对西洋参早期生长具有化感效应,且对受体地下部分的影响明显大于地上部分.