Highly efficient production of diverse rare ginsenosides using combinatorial biotechnology

The rare ginsenosides are recognized as the functionalized molecules after the oral administration of Panax ginseng and its products. The sources of rare ginsenosides are extremely limited because of low ginsenoside contents in wild plants, hindering their application in functional foods and drugs. We developed an effective combinatorial biotechnology approach including tissue culture, immobilization, and hydrolyzation methods. Rh2 and nine other rare ginsenosides were produced by methyl jasmonate-induced culture of adventitious roots in a 10 L bioreactor associated with enzymatic hydrolysis using six β-glycosidases and their combination with yields ranging from 5.54 to 32.66 mg L⁻¹. The yield of Rh2 was furthermore increased by 7% by using immobilized BglPm and Bgp1 in optimized pH and temperature conditions, with the highest yield reaching 51.17 mg L⁻¹ (17.06% of protopanaxadiol-type ginsenosides mixture). Our combinatorial biotechnology method provides a highly efficient approach to acquiring diverse rare ginsenosides, replacing direct extraction from Panax plants, and can also be used to supplement yeast cell factories.     

人参皂苷单体定向转化的生物催化及应用进展

人参是我国传统中药,药效显著、应用广泛。通过定向修饰与转化人参皂苷糖基可产生高抗癌活性稀有人参皂苷。传统化学法由于制备工艺极其复杂、成本过高,不能应用于临床,微生物及其酶系转化成为解决该瓶颈问题的最可行手段。有关全细胞催化、糖苷酶重组表达、固定化及其催化分子识别机制和溶剂工程的生物转化已有大量综述报道,但尚无在人参皂苷转化应用中的系统研究。文中通过对人参皂苷单体生物转化理论和应用研究最新进展的回顾,结合目前广泛采用的生物催化方法的讨论,系统梳理归纳了能够改善产物专一性、提高催化效率,且具有工业应用前景的人参皂苷单体定向转化方法。基于酶分子设计以及离子液体溶剂工程,对人参皂苷单体抗癌药物和食品、保健品市场的开发、规模化制备进行了展望。     

小型生物反应器内人参不定根的人参皂苷累积

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。     

Adventitious root growth and ginsenoside accumulation in Panax ginseng cultures as affected by methyl jasmonate

Adventitious roots of ginseng were treated with methyl jasmonate (MJ) up to 150m and cultured for 40days. Up to 100m MJ inhibited the root growth but increase ginsenoside accumulation. In a two-stage bioreactor culture, total ginsenosides, after elicitation with 100 m MJ peaked after 10days at 48mgg^–1 dry wt and then dropped sharply. Of the two groups of ginsenosides (Rb and Rg), higher amounts of Rb accumulated in the adventitious roots.Revisions requested; 2 July 2004; Revisions received 30 June 2004; 3 September 2004     

Revealing the Inhibitory Effect of Ginseng on Mitochondrial Respiration through Synaptosomal Proteomics

Ginseng, the active ingredients of which are ginsenosides, is the most popular herbal medicine and has potential merit in the treatment of cerebral disorders. To better understand the function of Ginseng in the cerebral system, we examined changes in the protein expression profiles of synaptosomes extracted from the cerebral cortical and hippocampal tissues of rats administered a high or low dose of Ginseng for 2 weeks. More than 5000 proteins belonging to synaptosomes were simultaneously identified and quantitated by an approach combining tandem mass tags with 2D liquid chromatography‐mass spectrometry (LC‐MS). Regarding differentially expressed proteins, downregulated proteins were much more highly induced than upregulators in the cerebral cortical and hippocampal synaptosomes, regardless of the dose of Ginseng. Bioinformatic analysis indicated the majority of the altered proteins to be located in the mitochondria, directly or indirectly affecting mitochondrial oxidative respiration. Further functional experiments using the substrate‐uncoupler inhibitor titration approach confirmed that three representative ginsenosides were able to inhibit oxidative phosphorylation in mitochondria. Our results demonstrate that Ginseng can regulate the function of mitochondria and alter the energy metabolism of cells, which may be useful for the treatment of central nervous disorders.     

人参总皂甙对海马神经元核仁组织者区和苔藓纤维末梢发芽的影响

本文研究人参总皂甙在海马齿状回颗粒细胞层诱发ＬＴＰ效应和促进大鼠记忆保持能力时,对海马神经元核仁组织者区和苔藓纤维末梢出芽的影响。给人参总皂甙第７天可显著提高群峰电位（ＰＳ）幅度,缩短ＰＳ起始和峰潜伏期,并可显著提高大鼠记忆保持能力。此时人参总皂甙可使海马ＣＡ３区锥体细胞和齿状回颗粒细胞Ａｇ－ＮＯＲ数较盐水组大鼠的平均提高６６．１７±２．３２％和７２．０７±０．９３％（Ｐ＜０．０１）;同时还可使大鼠的海马苔藓纤维末梢出芽级分平均较生理盐水组大鼠的平均堤高１－３倍（Ｐ＜０．０１）。提示人参总皂甙可提高神经元内ｒＤＮＡ的转录活性促进蛋白质合成,同时还可促进海马苔藓纤维末梢出芽以提高海马突触的传递功效。     

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...     

主成分分析法用于西洋参样品分类研究

建立西洋参药材分类方法;采用电感耦合等离子体质谱(ICP-MS)法对12个西洋参样品中的15种无机元素的含量进行测定,用高效液相色谱(HPLC)法测定上述样品中的7种人参皂苷的含量,用蒽酮-硫酸法测定其中多糖的含量;进而采用主成分分析法(PCA)对所测得的西洋参样品的23个变量进行分类研究;12个西洋参样品能得到合理的分类,而各人参皂苷的含量是决定西洋参样品分类的第1关键因素,元素Mn、Cu、As、Ni、Mo以及多糖的含量是第2关键因素;主成分分析法是西洋参分析分类的有效方法。