共查询到17条相似文献,搜索用时 281 毫秒
1.
小型生物反应器内人参不定根的人参皂苷累积 总被引:2,自引:0,他引:2
对小型生物反应器(3~10 L)培养人参不定根的生长和人参皂苷(Rg1、Re、Rb1)的累积规律,以及蔗糖浓度、初始接种量对其生长和人参皂苷累积的影响进行研究。结果表明:小型生物反应器内人参不定根的最佳收获周期为7周。初始接种量和蔗糖浓度影响生物反应器内人参不定根的生长和人参皂苷的累积,20或40 g/L蔗糖对人参不定根的生长和人参皂苷的累积优于60 g/L蔗糖;5和10 L生物反应器内最佳初始接种量分别为15和30g,其不定根的生长量分别为9.29和19.17 g,人参皂苷含量分别为5.16和4.58 mg/g。生物反应器内培养7周的人参与栽培4年的人参相比,人参皂苷Rg1和Re含量相差不大,但栽培人参中Rb1的含量远高于生物反应器中所培养的人参不定根。 相似文献
2.
利用菌种黑根霉Rhizopus sp.对人参皂苷Re进行生物转化,并对人参皂苷Re及其发酵产物进行HPLC系统分析比较,经液相色谱-质谱分析得出人参皂苷Re转化率为92.16%,并制备出人参皂苷Re发酵产物中峰值升高的成分,转化后的人参皂苷发酵产物中化合物1确定为人参皂苷Rg2,化合物2为Rg2的同分异构体,得率为10.13%;化合物3和化合物4确定为人参皂苷Rg5/Rk1,得率为29.23%。从结果初步推测得出人参皂苷Re被黑根霉转化为人参皂苷Rg2的机理,人参皂苷Re转化成人参皂苷Rg5/Rk1的机理还有待于进一步研究。 相似文献
3.
为了明确从现蕾、开花到结实过程中的人参生殖器官中各单体皂苷含量的动态变化,应用HPLC法测定了人工栽培的五年生人参不同时期生殖器官中的人参单体皂苷Rb1、Rb2、Rb3、Rc、Rd、Re、Rg1和Rg3的含量。结果显示:从现蕾到果实成熟的过程中,人参单体皂苷Rb1、Rb2、Rb3、Rc、Rd、Re、Rg1和Rg3的含量的平均值分别为0.643%,0.189%,1.026%,1.014%,1.941%,8.381%,0.724%和0.041mg.g-1。从现蕾到果实成熟的过程中,人参单体皂苷Rb1含量的最高值在7月16日,单体皂苷Rb3、Rc、Rd和Rg1含量的最高值在7月11日,单体皂苷Rb2和Rg2含量的最高值在8月7日。 相似文献
4.
人参皂苷与生态因子的相关性 总被引:5,自引:0,他引:5
环境条件影响中药材活性成分的形成和积累.利用各种数学统计分析方法探讨影响人参皂苷积累的生态因子,提高人参品质.人参样品采自人参道地产区(主产区)吉林、辽宁、黑龙江三省5年生栽培人参,同时采集采样点处的土壤样品.超高效液相(UPLC)色谱法分析了不同产区9种人参皂苷(Rg1、Re、Rf、Rg2、Rb1、Rc、Rb2、Rb3、Rd)的含量;利用“中药材产地适宜性分析地理信息系统”的生态因子空间数据库,获得采样区包括温度、水分、光照等10个生态因子数据;按土壤理化性质常规方法测定土壤样品中的有效硼、有效铁等微量元素和速效氮、速效钾等有效养分.对人参有效成分含量与土壤养分进行典型相关性分析发现,土壤中的有效硼、有效铁、速效氮与人参皂苷含量呈显著正相关,即适当提高土壤中有效硼、有效铁和速效氮的含量可以促进人参皂苷成分的积累,土壤水分与所测人参皂苷含量(Rb3除外)呈显著正相关,速效磷(P)、pH、速效锌(Zn)与各人参皂苷含量呈弱相关;人参皂苷与气候因子相关分析表明,温度(年活动积温、年平均气温、7月最高气温、7月平均气温、1月最低气温、1月平均气温)与人参皂苷含量呈显著负相关,其中与药典中人参含量测定项下的人参皂苷Rg1、Re、Rb1负相关尤为显著(r>0.6),说明在一定温度范围内,人参皂苷是随着温度的降低而升高的,即适当低温有利于人参皂苷有效成分的积累;海拔与人参皂苷Rc、Rb2、Rb3含量呈显著正相关(r>0.6),即相对较高的海拔可以促进这3种成分的积累;而年均降水量、年相对湿度和年均日照时数与人参皂苷相关不显著.通过主成分分析(PCA)、典型相关分析、排序等统计方法,考察不同产地样品中人参皂苷含量与生态因子间的相关性,研究结果揭示了温度在人参的主要活性成分-皂苷类形成中起决定性作用,在一定的温度范围内,温度越低越有利于人参皂苷的积累;阐明了土壤中的有效硼、有效铁、速效氮与人参皂苷含量成正相关.研究结果提示在人参实践生产中可以通过适当低温处理,增施硼、铁、氮肥等农艺措施来调控人参皂苷含量. 相似文献
5.
西洋参冠瘿组织悬浮培养及其人参皂苷类成分的分离 总被引:7,自引:0,他引:7
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)。 相似文献
6.
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。 相似文献
7.
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。 相似文献
8.
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 总被引:5,自引:0,他引:5
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. 相似文献
9.
人参发根的诱导及其适宜培养条件的研究 总被引:23,自引:0,他引:23
利用发根农杆菌A4菌株在人参根外植体上直接诱导产生发根。在1/2MS固体培养基上建立起发根离体培养系,经连续多代的培养,发根仍保持旺盛生长状态。PCR扩增结果表明,发根农杆菌RI质粒的rolC基因已在人参发根基因组中整合并得到表达。液体培养基中发根生长速度约为固体培养的2倍。经对发根中人参皂苷含量及比生长速率的测定,筛选出高产发根系R9923。利用HPLC法测定了R9923发根系中单体皂苷Rg1、Re、Rf、Rb1、Rc、Rb2和Rd的含量,人参总皂苷含量达15.2mg/g。确定1/2MS培养液(30g/L蔗糖)、摇床转速110r/min、每2周更换一次培养液、继代培养时间4周,为人参发根生长适宜条件。探讨了培养容积、发根初始接种量以及分级放大培养工艺对发根大规模生产过程中生物产量和皂苷含量的影响。 相似文献
10.
建立稳定的聚乙二醇(PEG)与(NH4)2SO4双水相体系以分离人参根中人参皂苷。通过上下相体积比(R)、分配系数(K)和回收率(Y)分析双水相体系对人参皂苷的萃取效果,研究了PEG分子量、PEG/(NH4)2SO4质量分数、pH值和温度等因素对双水相成相及人参皂苷萃取的影响。结果表明:PEG分子量为3350、PEG3350的质量分数为12%、(NH4)2SO4质量分数为16%、溶液pH为7.0、温度为60℃时,双水相体系对人参皂苷有较高的萃取率,回收率可到达88.94%。 相似文献
11.
人参皂苷Rb1、Rg1、Re对白血病细胞株KG1α增殖的影响 总被引:1,自引:0,他引:1
目的:探讨人参皂苷Rb1、Rg1、Re对急性髓系白血病细胞株(KG1α)增殖的影响.方法:取对数生长期KG1α细胞,分设人参皂苷Rb1、Rg1、Re组和常规培养组,以MTT比色法检测作用24h、48h、72h时对KG1α细胞增殖抑制作用,并计算Rb1的IC_(50)值,以此浓度为工作浓度,设常规培养组和处理组,台盼蓝计数法观察对KG1α细胞增殖的影响;流式细胞术测定细胞周期分布的变化.结果:MTT、台盼蓝计数显示人参皂苷单体Rb1、Rg1可抑制KG1α细胞增殖,呈浓度依赖性,以Rb1抑制效应最佳,于作用48h抑制率最高.台盼蓝计数显示人参皂苷单体Rb1-120μmol/L作用48h时抑制率达50.22%;流式细胞术结果提示,与对照组比较,Rb1-120μmol/L组G_2/M期KG1α细胞比例增加(P<0.05).结论:Rb1可抑制KG1α细胞体外增殖,其增殖抑制作用与将KG1α细胞阻滞于G_2/M期有关. 相似文献
12.
13.
根癌农杆菌转化紫草的研究 总被引:7,自引:0,他引:7
紫草 (LithospermumerythrorhizonSieb .etZucc)是传统中药。其根部含有萘醌类化合物—紫草素及其衍生物 ,具有显著的抗菌、抗炎、抗癌以及促进伤口愈合等生理活性。紫草素同时也是一种名贵化妆品染料。科学家对紫草的研究兴趣是基于其资源的缺乏及紫草植物本身所具有的一些特点 ;如 :紫草素及其衍生物的颜色特性可凭借肉眼观察 ,紫草素及其衍生物只在紫草的根部积累 ,紫草素合成的次生代谢途径受多种酶和外界条件 (光照 ,营养等 )的调节等。紫草细胞培养 (Fujita等 ,1983;叶和春等 ,1991)可以产… 相似文献
14.
The contents of five ginsenosides (Rg1, Re, Rb1, Rc and Rd) were measured in American ginseng roots collected from 10 populations grown in Maryland. Ginsenoside contents and compositions varied significantly among populations and protopanaxatriol (Rg1 and Re) ginsenosides were inversely correlated within root samples and among populations. The most abundant ginsenoside within a root and by population was either Rg1 or Re, followed by Rb1. Ginseng populations surveyed grouped into two chemotypes based on the relative compositions of Rg1 and Re. Four populations, including the control population in which plants were grown from TN and WI seed sources, contained roots with the recognized chemotype for American ginseng of low Rg1 composition relative to Re. The remaining 6 populations possessed roots with a distinctive chemotype of high relative Rg1 to Re compositions. Chemotype did not vary by production type (wild versus cultivated) and roots within a population rarely exhibited chemotypes different from the overall population chemotype. These results provide support for recent evidence that relative Rg1 to Re ginsenoside contents in American ginseng roots vary by region and that these differences are likely influenced more by genotype than environmental factors. Because the physiological and medicinal effects of different ginsenosides differ and can even be oppositional, our findings indicate the need for fingerprinting ginseng samples for regulation and recommended usage. Also, the High Rg1/Low Re chemotype discovered in MD could potentially be used therapeutically for coronary health based on recent evidence of the positive effects of Rg1 on vascular growth. 相似文献
15.
The effects of methyl jasmonate (MJ) elicitation on the cell growth and accumulation of ginsenoside in 5-l bioreactor suspension cultures of Panax ginseng were investigated. Ginsenoside accumulation was enhanced by elicitation by MJ (in the range 50–400 M); however, fresh weight, dry weight and growth ratio of the cells was strongly inhibited by increasing MJ concentration. The highest ginsenoside yield was obtained at 200 M MJ. In the second experiment, 200 M MJ was added on day 15 during the cultivation. The ginsenoside, Rb group, and Rg group ginsenoside content increased 2.9, 3.7, and 1.6 times, respectively, after 8 days of MJ treatment. Rb group gisnsenosides accumulated more than Rg group ginsenosides. Among Rb group ginsenosides, Rb1 content increased significantly by four times but the contents of Rb2, Rc and Rd increased only slightly. Among Rg group ginsenosides, Rg1 and Re showed 2.3-fold and 3.0-fold increments, respectively, whereas there was only a slight increment in Rf group ginsenosides. These results suggest that MJ elicitation is beneficial for ginsenoside production using 5-l bioreactor cell suspension cultures. 相似文献
16.
Juan Gao Yanbo Hu Yue Meng Fanlin Meng Xiaoqing Guo Nan Wang 《Biocatalysis and Biotransformation》2015,33(1):51-60
A novel ginsenoside-hydrolyzing strain was isolated from ginseng-cultivation soil in Changbai Mountain (China). The strain was identified as Cellulosimicrobium sp. 21 by 16S rDNA sequencing. Using the β-glucosidases secreted from Cellulosimicrobium sp. 21, protopanaxatriol-type ginsenoside Re was converted to the highly active neuroprotective molecule (S)-Rg2 by removal of the C-20-glucopyranosyl residue. The α-L-rhamnopyranosyl-(1→2)-β-D-glucopyranose at the C-6 position of Rg2 was not further attacked by Cellulosimicrobium sp. 21, so the transformation shows high specificity. To simplify the transformation and product-preparation process, a simple and efficient transformation system was developed in a phosphate buffer system instead of organic media. The optimum conditions for transforming ginsenoside Re into Rg2 by Cellulosimicrobium sp. 21 were determined through single-factor experiments and response surface methodology. Under the optimized conditions: transformation buffer, 50 mM phosphate buffer, at pH: 7.00; temperature: 27.6°C; substrate concentration: 0.50 mg/ml; biotransformation period: 12 h; the biotransformation efficiency reached 89.8% (molar ratio) in 2-L reaction system. This simple biotransformation with high specificity and efficiency has potential for use in Rg2 preparation in the pharmaceutical industry. 相似文献
17.
Water supplemented with 10% or 20% (v/v) of Zarrouk medium was used to cultivate Spirulina platensis in closed and open bioreactors under controlled conditions (30 degrees C, 32.5 micromol m(-2) s(-1), 12 h light/dark photoperiod) and in a greenhouse (9.4 to 46 degrees C, up to 2800 micromol m(-2) s(-1), variable day length photoperiod) using different initial biomass concentrations (X0) in the extreme south of Brazil (32.05 degrees S, 52.11 degrees W). Under controlled conditions the maximum specific growth rate (micromax) was 0.102 d(-1), the biomass doubling time (t(d)) was 6.8 d, the maximum dry biomass concentration (Xmax) was 1.94 g L(-1) and the maximum productivity (Pmax) was 0.059 g L(-)1 d(-1), while the corresponding values in the greenhouse experiments were micromax = 0.322 d(-1), t(d) = 2.2 d, Xmax = 1.73 g L(-1) and Pmax = 0.112 g L(-1) d(-1). Under controlled conditions the highest values for these parameters occurred when X0 = 0.15 g L(-1), while in the greenhouse X0 = 0.4 g L(-1) produced the highest values. These results show that the cultivation of S. platensis in greenhouses in the extreme south of Brazil is technically viable and that the S. platensis inoculum and the concentration of Zarrouk medium can be combined in such a way as to obtain growth and productivity parameters comparable, or superior, to those occurring in bioreactors under controlled conditions of temperature, illuminance and photoperiod. 相似文献