杜仲细胞悬浮培养产黄酮及其动力学研究

本文应用正交设计对杜仲细胞悬浮培养的基本培养基和植物生长物质浓度进行了筛选,并对影响杜仲细胞悬浮培养和总黄酮含量的不同因素进行了考察。结果表明,B5培养基+0.5mg/L NAA+0.6mg/L 6-BA、蔗糖30g/L、初始pH 5.0-5.5、接种量20g(FW)/L以及摇床转速110r/min为杜仲细胞悬浮培养的适宜条件。通过对杜仲悬浮细胞生长和代谢动力学的分析表明：杜仲细胞悬浮培养生长符合Logistic生长模型,最大比生长速率( m)为0.417d-1;细胞基于蔗糖的真正比生长得率(YG)与维持系数(m)分别为0.619g/g和0.0206g/(g·d-1);黄酮合成属部分生长耦联型,可用Luedeking-Piret模型进行描述。研究结果为杜仲细胞大规模悬浮培养生产天然活性成分奠定了基础。     

影响杜仲悬浮细胞生产桃叶珊瑚甙因素的研究

研究了外源激素2,4-D、NAA、6-BA、KT的不同组合以及营养添加物水解酪蛋白、酵母提取物对杜仲悬浮细胞生产桃叶珊瑚甙的影响。结果表明,在2.0mg/L2,4-D的培养基中分别添加1.0mg/LNAA、0.5mg/L6-BA、0.5mg/LKT可提高桃叶珊瑚甙含量;在培养基中添加水解酪蛋白和酵母提取物均能促进桃叶珊瑚甙的合成,以添加100mg/L水解酪蛋白和15mg/L酵母提取物时其含量最大。初步得出桃叶珊瑚甙合成的最适培养条件为添加2.0mg/L2,4-D+1.0mg/LNAA+0.5mg/L6-BA+0.5mg/LKT+100mg/L水解酪蛋白+15mg/L酵母提取物的MS培养基。     

杜仲细胞悬浮培养生产桃叶珊瑚甙的研究

对杜仲细胞悬浮培养及其次生代谢产物桃叶珊瑚甙的产生进行了研究,考察了各种理化因子对细胞生长及桃叶珊瑚甙产生的影响。结果表明,在悬浮培养生产桃叶珊瑚甙中,第18天桃叶珊瑚甙的含量达到最大值,培养基为MS、pH为5.8时有利于桃叶珊瑚甙的合成,此时含量高达40.56mg/L。2.0mg/L的2,4-D、NAA及浓度低于1.0mg/L的6-BA均能促使桃叶珊瑚甙的合成,但KT却抑制桃叶珊瑚甙的合成。     

麻疯树悬浮细胞系的建立与优化

以麻疯树无菌幼苗为外植体,研究疏松愈伤组织诱导方案及不同培养条件对麻疯树悬浮细胞生长的影响,旨在建立麻疯树悬浮细胞体系.结果表明,麻疯树疏松愈伤组织诱导的最适培养基及激素组合为:MS+2,4-D0.6mg/L+BA 1.0 mg/L+蔗糖30 g/L,此培养基上诱导出的愈伤组织湿润松散,颜色鲜艳.接种愈伤组织进行悬浮培养的液体培养基最适激素组合为:NAA 0.2mg/L+2,4-D 1.0 mg/L+BA 0.5 mg/L.初代愈伤组织适宜用于悬浮培养,摇床转速应低于120 r/min为宜,这样培养的悬浮细胞分散度最高.培养基中添加500 mg/L水解酪蛋白能有效地促进悬浮细胞的生长.悬浮细胞振荡培养过程中悬浮细胞生长的时间进程为起始培养的第5天前,细胞增殖十分缓慢;第5-11天期间生长迅速;第13天后基本停止生长.在上述优化培养条件下,麻疯树悬浮细胞系增长速率最快,细胞生长状态最佳.     

诺丽茎段愈伤组织诱导优化及细胞悬浮系的建立

为获取诺丽茎段中的次生代谢物并为建立遗传转化体系奠定基础,以诺丽茎段(无腋芽)为外植体诱导愈伤组织,并建立细胞悬浮系,对影响愈伤组织的诱导及细胞悬浮系的因子进行了研究。结果表明:愈伤组织诱导的最优培养基是MS+1.0mg/L6-BA+0.1mg/L2,4-D;悬浮培养的最佳培养基为MS+1.0mg/L6-BA+0.1mg/L2,4-D+3%蔗糖,pH为5.85,当初始接种量为37.5g/L、摇床转速为110r/min且(25±2)℃暗培养时,悬浮细胞生长良好,生长速率最大;诺丽茎段悬浮细胞生长曲线呈"S"型,最适继代周期为12–20 d;培养过程中,培养基的pH呈先下降后缓慢升高的变化趋势,诺丽茎段愈伤组织悬浮细胞培养的最适pH在4.5–5.0之间。文中成功建立了以诺丽茎段为外植体的稳定的细胞悬浮系。     

不同培养条件对半夏悬浮培养细胞生长及总生物碱形成的影响

研究了半夏悬浮培养过程中细胞鲜重的变化和MS培养基组分中碳源、钙盐、Fe盐及肌醇变化对半夏悬浮培养细胞生长及总生物碱合成的影响。结果表明 ,半夏细胞的生长曲线呈“S”型 ,细胞的最佳收获时间为 2 1d。在两种碳源中 ,葡萄糖比蔗糖利于细胞的生长和总生物碱的合成 ,最适浓度为 2 0g L。最适合细胞生长和总生物碱形成的钙盐浓度为 1 8mmol L、Fe盐浓度为 0 0 6mmol L和肌醇浓度为 10 0mg L。     

高产莪术细胞悬浮系建立及产物前体对挥发油合成的调控研究

研究了高产莪术细胞悬浮系培养的条件及前体物质添加对挥发油合成的调控.结果表明淡黄色颗粒状愈伤组织是建立高产细胞悬浮系的最佳供试愈伤组织;最佳培养基成分是MS培养基添加葡萄糖与蔗糖各15-30g/L(11),氮源为NH+4和NO-3,比例为13,总量为80mmol/L;激素组合为6-BA 3.0-5.0 mg/L、2,4-D 1.0 mg/L;光下培养10-15天再转入优化条件下的暗培养,可形成稳定的高产细胞悬浮系;其细胞周期中的最大细胞生长量及挥发油含量分别是248g/L和2.28%;前体物质泛酸钙、乙酸铵、乙酸钾的添加均可有效提高培养细胞合成挥发油的百分含量,其中乙酸铵最有效,在指数生长中期添加0.5mmol/L乙酸铵,挥发油的最高含量可达3.11%,产量为8.27g/L,分别是添加前的1.25倍及1.2倍.     

NO对银杏悬浮细胞生长及黄酮类物质合成的影响

以硝普钠(sodium nitroprusside,SNP)为一氧化氮(NO)的供体,向银杏悬浮细胞培养液中加入不同浓度的SNP,研究外源NO对银杏悬浮细胞生长状况、过氧化氢酶(CAT)活性、苯丙氨酸解氨酶(PAL)活性和黄酮类物质生物合成的影响.结果表明,低浓度SNP有利于银杏悬浮细胞生长,而高浓度SNP可以促进黄酮类物质的合成.银杏悬浮细胞在添加0.5和10 mmol/L SNP的培养基中培养16 d时,细胞干重分别为对照组的134%和73%;在添加10 mmol/L SNP的培养基中培养20 d时,细胞中黄酮类物质的含量为对照组的136%.同时,10 mmol/L SNP促进银杏悬浮细胞PAL和CAT活性显著升高.NO专一性淬灭剂c-PITO(carboxyl phenyltetramethylimidazoleoxide)抑制SNP对银杏悬浮细胞生长、CAT活性、PAL活性和黄酮类物质含量的促进作用,说明SNP是通过其分解产物NO影响细胞生长和黄酮类物质的合成.根据这些结果推测,NO可能通过触发银杏悬浮细胞的防卫反应,激活了细胞中黄酮类物质的生物合成途径.     

水翁悬浮细胞系的建立及其悬浮培养的生长特性

建立了水翁悬浮细胞系,并对其悬浮培养的生长特性作了初步探讨。以水翁新生芽尖作为外植体,接种于添加有不同浓度和配比的生长调节物质及各种附加物的MS固体培养基中,诱导培养产生初代愈伤组织;挑选Ⅰ和Ⅱ型的愈伤组织进行继代培养改良,考察愈伤组织的生长状况和统计生长量来决定最佳继代培养基的配方和得到适合悬浮培养的愈伤组织;将以上得到的愈伤组织转接于最佳继代液体培养基中,于24±1℃,120r/min条件下振荡培养,筛选分散度好、较均匀、生长快、色浅透明的细胞作为种子传代,数次传代后得到性能良好的悬浮细胞系;以细胞生长量(鲜重)为指标,绘制了水翁悬浮细胞的生长曲线。研究表明:2.0mg/L的2,4-D的诱导率最高(92%,初代愈伤组织为Ⅰ型),Ⅱ型愈伤组织的最高诱导率为75%;最佳的继代培养基配方为MS 0.5mg/L 2,4-D 0.5mg/L 6-BA 1.0mg/L IAA 0.5mg/L IBA 0.5mg/L NAA 0.1mg/L KT 700mg/L LH,形成Ⅱ型愈伤组织的生长量可达3.28g/瓶(鲜重);液体继代培养3代后,可得到性能良好的悬浮细胞系;水翁悬浮细胞的生长曲线表明,最佳接种期为培养后的16~18d。     

黄山药细胞培养初步研究

以黄山药叶片为外植体诱导愈伤组织,经多次继代培养筛选后进行细胞悬浮培养,研究了两种培养基对细胞生长动态的影响以及4种培养参数对细胞生长量的影响。结果表明,培养在含6-BA1 mg/L和2,4-D1 mg/L的MS液体培养基中的细胞生长效果较好,培养20 d左右可达最高生长点。较适宜的培养条件为:接种量0.8~1.0 g/100 mL;培养温度24℃~27℃;pH 5.2~5.8;蔗糖用量20~40 g/L;继代培养周期15~20 d。     

不同种类无机盐对灰毡毛忍冬“渝蕾1号”悬浮培养体系中细胞生长和绿原酸含量的影响

为提高灰毡毛忍冬"渝蕾1号"悬浮培养体系中绿原酸的含量,该研究探讨了B_5培养基中不同浓度的无机盐对灰毡毛忍冬"渝蕾1号"悬浮培养细胞生物量及绿原酸含量的影响,通过在悬浮培养体系中添加不同浓度的无机盐,采用重量法测定灰毡毛忍冬"渝蕾1号"悬浮培养细胞的生物量及采用高效液相色谱法测定绿原酸的含量。结果表明:当硝态氮和铵态氮配比与B_5培养基中硝态氮和铵态氮配比一致时,即NO_3~-/NH_4~+摩尔比值为13∶1时,培养体系有利于细胞的生长和绿原酸的积累。当KNO_3浓度为3.5 g·L~(-1)时,细胞生物量达到最大,为19.26 g·L~(-1);当KNO_3在较低浓度(0.5 g·L~(-1)和1.5 g·L~(-1))时,积累较多的绿原酸。NO_3~-的两项研究结果均与对照浓度(2.5g·L~(-1))有一定的差异。另外,对(NH_4)_2SO_4来说,在高于对照浓度0.134 g·L~(-1),即浓度为0.268 g·L~(-1)时,生物量和绿原酸含量都达到了最大。P、Ca、Mg三种矿质元素的研究结果表明,当Na H_2PO_4·2H_2O浓度为0.10 g·L~(-1)、Ca Cl_2的浓度为0.20 g·L~(-1)时,细胞的生长和绿原酸的积累均可达到最大值;而对Mg~(2+)来说,低浓度促进细胞的生长,高浓度促进绿原酸的积累。兼顾细胞生物量和绿原酸含量两个指标,需选择适中的浓度。这些结果均与对照浓度有一定的差异。这说明灰毡毛忍冬"渝蕾1号"悬浮细胞所需无机盐的浓度与B_5培养基无机盐的浓度有一定的差异,选择适宜的浓度可促进其悬浮细胞的生长及次生代谢产物绿原酸的积累。该研究结果为绿原酸的工业化生产打下了基础。     

培养基成分对杜仲愈伤组织生长及次生代谢产物含量的影响

以Bs＋0．5mg／L NAA＋0．5mg／L BA为基本培养基,研究了B5培养基中8种主要无机盐浓度对杜仲愈伤组织生长及绿原酸和总黄酮两种次生代谢产物含量的影响。结果表明：在1000～5000mg／L范围内增加培养基中KNO3的含量有利于愈伤组织生长,B5培养基中当KNO3的浓度达到2／3时,绿原酸和总黄酮含量及产量最高;(NH4)2SO4以4／3原浓度时对愈伤组织生长量、总黄酮含量及产量最高,对绿原酸的含量则是其为原浓度的1／3时最高;MgSO4以2／3浓度对生长量及1／3浓度对绿原酸、总黄酮积累最高;NaH2PO4、CaCl2和MnSO4以原浓度的愈伤组织生长和次生代谢产物合成最好;ZnSO4和FeSO4的原浓度愈伤组织的生长量最大,而1／3浓度的绿原酸和总黄酮含量最高。     

A novel recycle batch immobilized cell bioreactor for propionate production from whey lactose

Recycle batch fermentations using immobilized cells of Propionibacterium acidipropionici were studied for propionate production from whey permeate, de-lactose whey permeate, and acid whey. Cells were immobilized in a spirally wound fibrous sheet packed in a 0.5-L column reactor, which was connected to a 5-L stirred tank batch fermentor with recirculation. The immobilized cells bioreactor served as a breeder for these recycle batch fermentations. High fermentation rates and conversions were obtained with these whey media without nutrient supplementation. It took approximately 55 h to ferment whey permeate containing approximately 45 g/L lactose to approximately 20 g/L propionic acid. Higher propionate concentrations can be produced with various concentrated whey media containing more lactose. The highest propionic acid concentration obtained with the recycle batch reactor was 65 g/L, which is much higher than the normal maximum concentration of 35 to 45 g/L reported in the literature. The volumetric productivity ranged from 0.22 g/L . h to 0.47 g/L . h, depending on the propionate concentration and whey medium used. The corresponding specific cell productivity was 0.033 to 0.07 g/L . g cell. The productivity increased to 0.68 g/L . h when whey permeate was supplemented with 1% (w/v) yeast extract. Compared with conventional batch fermentation, the recycle batch fermentation with the immobilized cell bioreactor allows faster fermentation, produces a higher concentration of product, and can be run continually without significant downtime. The process also produced similar fermentation results with nonsterile whey media. (c) 1995 John Wiley & Sons, Inc.     

Further studies relating chlorogenic acid concentration in carrots to carrot fly damage

The effects of first generation carrot fly larval damage on chlorogenic acid concentration in carrots was investigated in a field experiment at Wellesbourne in 1985. In a separate experiment carrots grown in the absence of a resident population of carrot fly were also analysed for chlorogenic acid; these carrots maintained low concentrations of chlorogenic acid through the summer and autumn until low ground temperatures occurred from November to January. The relationship between chlorogenic acid concentration and damage by the first generation of carrot fly was described by a similar model to the one derived previously for late-generation damage but without the cultivar dependence. This may have been because first generation damage takes place in mid-summer when soil temperature is not sufficiently low for differential chlorogenic acid production by carrot cultivars. The model supports the hypothesis that carrot fly damage increases chlorogenic acid production which subsequently encourages further attack. The increase in acid production due to the low winter temperature may be the mechanism which, in turn, induced a differential cultivar response in carrots harvested during the winter.     

Effects of Abscisic Acid on Phenolic Content and Lignin Biosynthesis in Tobacco Tissue Culture

A significant depression of callus growth resulted from low concentrations of abscisic acid (ABA) added to the medium recommended by Linsmaier and Skoog. Low concentrations also decreased the chlorogenic acid and lignin content of the callus, and generally decreased amounts of scopolin and scopoletin in the tissue. Gibberellic acid (GA₃) stimulated callus growth in a low concentration (0.1 mg/1) and inhibited growth at a high concentration (10.0 mg/1). Both levels of GA₃ increased scopoletin accumulation in tobacco callus. A high concentration of GA₃ increased the accumulation of scopolin and chlorogenic acids, whereas a low concentration decreased the amounts of these two phenolic compounds. In comparison with the control, lignin synthesis was stimulated by a low GA₃ concentration, but a high GA₃ concentration did not have a significant effect. Both low and high concentrations of GA₃ overcame ABA inhibition of growth and lignin synthesis, and partially reversed ABA inhibition of scopoletin production. However, GA₃ did not reverse the inhibitory effect of ABA on scopolin production. The low concentration of GA₃ overcame the inhibition of chlorogenic acid production resulting from a 0.01 mg/1 concentration of ABA, but this was the only reversal of chlorogenic acid inhibition resulting from addition of GA₃ to the medium.     

微量元素对金银花绿原酸合成关键酶基因LjHCT和LjC3H1表达的影响研究

绿原酸是金银花（Lonicera japonica Thunb.）入药的主要化学成分,如何稳定和提高绿原酸的含量是近年来金银花研究的热点。本研究通过对金银花分别根施Fe、B和Mo3种微量元素,比较处理前、后金银花中微量元素与绿原酸含量的变化,并定量分析3种微量元素对金银花绿原酸合成关键酶基因LjHCT和LjC3H1表达的影响。研究结果显示,高浓度的Fe处理对LjHCT基因的表达有明显的抑制作用,而中、低浓度的Fe处理可以促进LjHCT基因的表达;随着B和Mo元素浓度的提高,LjHCT基因的表达量也逐渐增加。低浓度的Fe处理可以促进LjC3H1基因的表达,而高浓度的Fe处理对LjC3H1基因的表达具有抑制作用;B元素对LjC3H1基因表达无显著影响,而高浓度的Mo处理可以促进LjC3H1基因的表达。根施中、低浓度的Fe元素,中、高浓度的Mo和B元素后金银花绿原酸含量显著增加;而根施高浓度的Fe元素后金银花中绿原酸含量显著减少。研究结果表明微量元素Fe、B和Mo可通过调节绿原酸生物合成关键酶基因的表达从而有效促进绿原酸的形成和积累。本研究为人工定向调控金银花绿原酸含量、开发人工栽培金银花专用微量元素肥料提供了理论依据。     

Continuous conversion of rice starch hydrolysate to 2-keto-D-gluconic acid by Arthrobacter globiformis C224

A continuous conversion process of rice starch hydrolysate to 2-keto-D-gluconic acid (2KGA) by Arthrobacter globiformis C224 was developed. Its feasibility for industrial application was also evaluated. Results showed that the initial cell concentration exceeding 1.25 g/L met the continuous 2KGA production at a stable dilution rate and media composition, while the dilution rate and feeding glucose concentration had a significant effect on 2KGA production performance. The optimal operating parameters were obtained as: 0.090/h of dilution rate and 171.0 g/L of feeding glucose concentration. Under these conditions, the steady state had a produced 2KGA concentration of 124.74 g/L, average volumetric productivity of 11.23 g/L/h, and yield of 0.97 g/g. In conclusion, continuous 2KGA production by the A. globiformis C224 strain would be a superior industrial process for the production of 2KGA in terms of its high 2KGA productivity and yield.     

Production of fructose and ethanol from sugar beet molasses using Saccharomyces cerevisiae ATCC 36858

The production of enriched fructose syrups and ethanol from beet molasses using Saccharomyces cerevisiae ATCC 36858 was studied. In batch experiments with a total sugar concentration between 94.9 and 312.4 g/L, the fructose yield was above 93% of the theoretical value. The ethanol yield and volumetric productivity in the beet molasses media with sugar concentration below 276.2 g/L were in the range of 59-76% of theoretical value and between 0.48 and 2.97 g of ethanol/(L x h), respectively. The fructose fraction in the carbohydrates content of the produced syrups was more than 95% when the total initial sugar concentration in the medium was below 242.0 g/L. Some oligosaccharides and glycerol were also produced in all tested media. Raffinose and the produced oligosaccharides were completely consumed by the end of the fermentation process when the total initial sugar concentration was below 190.1 g/L. The glycerol concentration was below 16.1 g/L. The results could be useful for a potential industrial production of ethanol and high-fructose syrup from sugar beet molasses.     

Chlorogenic acid modifies plasma and liver concentrations of: cholesterol,triacylglycerol, and minerals in (fa/fa) Zucker rats

Chlorogenic acid, a phenolic compound found ubiquitously in plants, is an in vitro antioxidant and metal chelator. Some derivatives of chlorogenic acid are hypoglycemic agents and may affect lipid metabolism. Concentrations of cholesterol and triacylglycerols are of interest due to their association with diseases such as non-insulin-dependent-diabetes- mellitus and obese insulin resistance. As little is known about the effects of chlorogenic acid in vivo, studies using obese, hyperlipidemic, and insulin resistant (fa/fa) Zucker rats were conducted to test the effect of chlorogenic acid on fasting plasma glucose, plasma and liver triacylglycerols and cholesterol concentrations. Aditionally, the effects of chlorogenic acid on selected mineral concentrations in plasma, spleen, and liver were determined. Rats were implanted with jugular vein catheters. Chlorogenic acid was infused (5 mg/Kg body weight/day) for 3 weeks via intravenous infusion. Chlorogenic acid did not promote sustained hypoglycemia and significantly lowered the postprandial peak response to a glucose challenge when compared to the same group of rats before Chlorogenic acid treatment. In Chlorogenic acid-treated rats, fasting plasma cholesterol and triacylglycerols concentrations significantly decreased by 44% and 58% respectively, as did in liver triacylglycerols concentrations (24%). We did not find differences (p > 0.05) in adipose triacylglycerols concentration. Significant differences (p < 0.05) in the plasma, liver, and spleen concentration of selected minerals were found in chlorogenic acid-treated rats. In vivo, chlorogenic acid was found to improve glucose tolerance, decreased some plasma and liver lipids, and improve mineral pool distribution under the conditions of this study.     

Effect of the culture medium and biotic stimulation on taxane production in Taxus globosa Schltdl in vitro cultures

Taxus globosa is the only species of the Taxus genus that grows in Mexico. In this study, callus cultures from leaves and young shoots of T. globosa were established in Gamborg’s B5 medium supplemented with 2,4-dichlorophenoxiacetic acid (2 mg/L), kinetin (0.5 mg/L) and gibberellic acid (0.25 mg/L). Callus growth and taxane production were evaluated using two culture media: Woody Plant Medium and Gamborg’s B5 supplemented with picloram (2 mg/L), kinetin (0.1 mg/L) and gibberellic acid (0.5 mg/L). The effect of the inoculum size (50, 100 and 150 g FW/L) and culture media (Woody Plant Medium and Gamborg’s B5) with and without the presence of methyl jasmonate (100 μM) on T. globosa cell suspensions was assessed. Taxane analysis revealed that the calli in Gamborg’s B5 produced taxol (50 μg/g DW), baccatin III, 10-deacetyl baccatin III and 10-deacetyl taxol. Woody Plant Medium also induced the production of taxol, although to a lesser extent. The optimum inoculum size was 50 g FW/L. In cell suspension cultures, both media had a significant effect on taxane production when supplemented with methyl jasmonate. In Woody Plant Medium, at day 14, a total concentration of 197.999 μg/L of taxol, 160.622 μg/L of baccatin III, 633.724 μg/L of 10-deacetyl baccatin III and 229.611 μg/L 10-deacetyl taxol were obtained, with total excretion of baccatin III and 10-deacetyl taxol to the culture medium. In Gamborg’s B5, cephalomanine was obtained at a concentration of 91.428 μg/L without elicitation, and all taxanes were excreted to the medium to a variable extent.