几种促进剂的添加时间对中国红豆杉细胞悬浮培养紫杉醇合成的影响

采用正交实验检测中国红豆杉[Taxus chinensis(Pilger)Rehd.]细胞悬浮培养中水杨酸、硝酸银、氨基酸前体、D-果糖和硫酸镧的添加时间对细胞生长和紫杉醇(taxol)积累的影响.这些促进剂的添加时间对中国红豆杉细胞悬浮培养的生长没有明显的影响,但能明显促进紫杉醇的合成,当在细胞培养的第14 d添加1.67 mg/L硝酸银,第18 d添加0.1 mg/L水杨酸,第21 d添加氨基酸前体,第21 d添加10 g/L D-果糖和2 mg/L硫酸镧时对紫杉醇的促进作用最明显,在此最优组合处理时紫杉醇含量达到10.05 mg/L,相对于最差组合处理时紫杉醇含量仅有1.77 mg/L,紫杉醇含量提高5.7倍,这些因素的添加时间对紫杉醇合成的相互作用达不到显著水平.     

真菌诱导子对中国红豆杉生产紫杉醇优化模型研究

采用均匀设计,研究了真菌诱导子F5质量浓度,添加阶段与处理时间等对中国红豆杉细胞生产紫杉醇（Taxol）的综合效应,建立了以紫杉醇产量为目标函数的数学模型,借助模型,研究了各因子及其交互作用对紫杉醇含量的影响,获得了第15d加入质量浓度为0.64mg/L的真菌诱导子F5,处理29d为最佳的工艺组合。     

水杨酸在紫杉醇生物合成中诱导作用的研究

研究了水杨酸对红豆杉细胞培养中紫杉烷合成的影响。在适宜浓度的水杨酸诱导下,紫杉醇(Taxol)的产量提高了近3倍,同时10去乙酰基巴卡亭Ⅲ(10-DAB)与巴卡亭Ⅲ(Baccatin Ⅲ)相应上升。通过对紫杉醇合成代谢途径的动力学分析,初步推断水杨酸的加入提高了10-DAB合成速率。并通过水杨酸和硝酸银的配伍诱导,实现了诱导子之间的协同作用,获得了39 mg/L的紫杉醇含量,比两个诱导子单独作用时的最高含量之和还高出50%。     

脂氧合酶在诱导红豆杉细胞产紫杉醇中的作用

对红豆杉悬浮培养细胞中脂氧合酶(LOX)在诱导子诱导紫杉醇合成中的作用进行了探讨。结果表明真菌诱导子处理可提高细胞内LOX的活性和紫杉醇的产量,而诱导前用LOX抑制剂菲尼酮处理,可完全抑制诱导子对LOX活性和紫杉醇合成的诱导作用。说明LOX途径可能参与了紫杉醇的合成过程。外加茉莉酸甲酯也可激活LOX活性和紫杉醇合成,诱导前用菲尼酮处理可抑制诱导子诱导的LOX活性和紫杉醇合成,说明外源茉莉酸甲酯可能是通过激活细胞内LOX途径而启动下游紫杉醇的合成。为了进一步研究脂氧合酶在紫杉醇合成中的作用。我们还对红豆杉细胞脂氧合酶的分布和分子量等性质进行了研究。     

东北红豆杉细胞培养生产紫杉醇的调控研究

研究了诱导子、前体及抑制剂的协调作用对东北红平杉生产紫杉醇的影响。结果表明,向培养基中加入80mg/L水到、80mg/L茉莉酸甲酯、0.5mmol/L乙酸钠、2mmol/L苯丙氨酸、0.5mmol/L丝氨酸、0.1mmol/L甘氨酸、10mg/L肉桂酸、0.5mmol/L苯甲酸钠、5mmol/L丙酮酸钠、10mg/L氯化氯胆碱、和1mg/L赤霉酸可使紫杉醇含量提高368.65%。并且证明交互作用对紫杉醇合成有显著作用。     

赤霉素和烯效唑对东北红豆杉紫杉醇代谢的影响

以一年生东北红豆杉扦插苗为材料,采用Hoagland营养液添加赤霉素及其合成抑制剂烯效唑的方法,研究了不同处理对东北红豆杉紫杉醇(taxol)及其前体巴卡亭Ⅲ(baccatinⅢ)与10-去乙酰基巴卡亭Ⅲ(10-DAB)含量变化的影响,同时比较了苯丙氨酸解氨酶(PAL)、过氧化物酶(POD)和超氧化物酶(SOD)活性变化,分析了紫杉醇合成旁路途径物质及抑制剂对紫杉醇代谢的作用效应.结果表明,不同浓度赤霉素(GA3)和烯效唑(S3307)处理对东北红豆杉POD、SOD及PAL活性的影响不显著;但整个处理过程中叶片中紫杉醇含量均为对照的1.28～6.44倍,茎中紫杉醇、baccatinⅢ及叶片中10-DAB含量在第6天均高于相应对照;赤霉素与烯效唑对紫杉醇及其前体合成的作用途径存在一致性.     

茉莉酸甲酯诱导下红豆杉细胞产生紫杉烷类物质群代谢轮廓分析

红豆杉细胞培养物经甲醇提取和固相萃取粗分离,进行反相高效液相色谱分析,获得了约含13个与紫杉醇极性相关的化合物色谱图,通过质谱联用和对照品参照,归属了这些化合物组成。进一步利用茉莉酸甲酯（MJ）诱导细胞,比较这些组分在诱导前后的相对色谱峰面积变化,结果表明,所有紫杉烷组分的浓度在诱导后都提高,其中以taxchinin M及其结构类似物提高最显著,紫杉醇,B-Ⅲ和B-Ⅵ等比C14位取代的taxuyunnanine C及其衍生物的浓度增加幅度要大,提示MJ对紫杉醇合成中非有效乙酰化旁路代谢有促进作用,而对C14位取代物生成的旁路促进作用不明显。本文为紫杉醇的生物合成研究提供了新的思路和方法。     

水杨酸诱导下人参培养物差异表达基因片段的克隆

本研究以人参愈伤悬浮细胞为材料,在其生长的第28天添加1x10-3 mg/L水杨酸,测定水杨酸添加后,过氧化物酶、多酚氧化酶和苯丙氨酸解氨酶等3种酶在72 h内的变化及皂苷含量,结果表明:水杨酸添加后对过氧化物酶和苯丙氨酸解氨酶的活力影响最大,分别在24 h和48 h达到最大峰值,在18 h开始影响多酚氧化酶的活力,培养物生长的第28天添加水杨酸可以明显提高人参愈伤组织中皂苷的合成.确定添加水杨酸后24 h提取总RNA,进行cDNA-RDA分析,筛选差异片段.确定差异基因并在GenBank中注册,注册号为FE900130.为探讨水杨酸作为诱导子对人参次生代谢的影响奠定基础.     

水杨酸对真菌诱导子诱导红豆杉悬浮细胞膜脂过氧化和紫杉醇生物合成的影响

研究了 5 0 mg· L- 1真菌诱导子 (F5) ,5 0 mg· L- 1水杨酸 (SA) ,5 0 mg· L- 1F5+5 0 mg· L- 1SA3种处理 ,对红豆杉悬浮细胞膜脂过氧化和紫杉醇合成的影响。结果表明 :F5和 SA单独处理红豆杉细胞均引起细胞膜脂过氧化。SA+F5联合处理可以减轻 F5单独处理细胞所引起的膜脂过氧化程度 ,SA+F5联合处理与真菌诱导子处理相比 ,较大地提高了过氧化物酶的活性 ,得到较多的生物量。3种处理方法均可提高红豆杉细胞紫杉醇产量 ,特别以 F5+SA处理得到产量最高 ,达到 1 1 .5 mg· L- 1,分别为 F5,SA和对照组的 1 .5倍、2 .0倍和7.5倍。结果显示 :在真菌诱导子诱导与水杨酸的联合作用下提高紫杉醇产量 ,可能与水杨酸减轻真菌诱导子所引起的细胞膜脂过氧化程度有关     

镰刀菌诱导子对盾叶薯蓣离体培养物中薯蓣皂素合成的影响

研究了镰刀菌(Fusarium solani)诱导子对盾叶薯蓣离体培养物中薯蓣皂素合成的影响。结果表明:当培养基中诱导子糖含量达到30 mg GE/L时能使薯蓣皂素的含量明显提高;薯蓣皂素含量的最大值出现在镰刀菌诱导子处理后的第35 d,达到对照的2倍左右;盾叶薯蓣离体培养物PPO、SOD活性以及可溶性蛋白含量在添加诱导子后呈现一定的规律性变化。     

Novel chemically synthesized salicylate derivative as an effective elicitor for inducing the biosynthesis of plant secondary metabolites

Trifluoroethyl salicylate (TFESA), a novel salicylate derivative, was chemically synthesized and evaluated by bioassay as a potential elicitor for inducing the biosynthesis of plant secondary metabolites. A cell line of Taxus chinensis, which stably produced a high level of bioactive taxuyunnanine C (Tc), was taken as a model plant cell system. The application of TFESA to the cell cultures could significantly induce Tc biosynthesis, although the cell growth was slightly inhibited. More interestingly, Tc production was enhanced more in the presence of TFESA compared with a structure-similar well-known elicitor, salicylic acid (SA). For example, addition of 100 microM TFESA on day 7 led to a high Tc content of 21.9 +/- 0.1 mg g(-1) (at day 21), whereas the Tc content was 14.0 +/- 0.2 and 16.7 +/- 0.3 mg g(-1) for the control and that with addition of 100 microM SA, respectively. The results indicate that the newly synthesized TFESA can act as a powerful elicitor for secondary metabolism induction in plant cell cultures.     

悬浮培养南方红豆杉细胞的紫杉醇生物合成路径中诱导子的作用位点

作者研究开发出一种基于分析中间响应模式确定悬浮培养诱导子作用位点的新方法.研究结果表明,一个诱导子的作用位点存在于浓度变化方向相反的相邻两个中间代谢物之间;该方法的有效性在悬浮培养南方红豆杉(Taxus chinensis(Pilg.)Rehd.var.mairei(Lemee et Levl.)Cheng et L. K.Fu)生物合成紫杉醇过程中得以证实;经确定,甲基茉莉酮酸、硝酸根和柠檬酸铵的作用位点在baccatinⅢ至10-去乙酰基紫杉醇之间;水杉酸、花生四烯酸的作用位点存在3种可能性,即增强10-去乙酰基紫杉醇的合成、防止紫杉醇和cephalomannine的降解.该方法对指导诱导子配伍优化紫杉醇生产具有指导意义.     

Oxidative Stress and Taxol Production Induced by Fungal Elicitor in Cell Suspension Cultures of Taxus Chinensis

Treatment of Taxus chinensis cell suspension cultures with fungal elicitor resulted in an oxidative stress characterized by H₂O₂ production, malondiadehyde (MDA) accumulation and cell death. This oxidative stress was dependent on the concentration of elicitor. Cells exposed to elicitor accumulated taxol, however, not proportional to elicitor concentration. High production of taxol occurred in cells treated with the suitable elicitor concentration. We concluded that oxidative stress had the deleterious effect on taxol production. Simultaneous treatment with elicitor and ascorbic acid (ASA) changed the oxidative stress and taxol production. Production of taxol in cells treated with 200 mg dm^–3 elicitor and ASA was enhanced compared with that in cells treated with only 200 mg dm^–3 elicitor, while production of taxol in cells treated with 100 and 50 mg dm^–3 elicitor and ASA was decreased compared with that in cells treated with 100 and 50 mg dm^–3 elicitor.     

Hydrogen peroxide from the oxidative burst is not involved in the induction of taxol biosynthesis in Taxus chinensis cells

In cell suspension cultures of Taxus chinensis, 40 mg/l fungal elicitor from Aspergillus niger and 20 microM HgCl2 elicited 5.7 and 3.6 mg/l taxol, which was a 9-fold and 5-fold increase vs. compared with the control, respectively. The fungal elicitor induced hydrogen peroxide (H2O2) accumulation but HgCl2 did not, indicating that H2O2 was not necessary for enhancement of taxol induced by elicitor. Compared with the treatment with fungal elicitor alone, exogenous catalase, ascorbic acid, diphenylene iodonium and superoxide dismutase induced a 0.45, 0.4, 0.7 and 1.4-fold H2O2, but elicited taxol production, which was 0.98, 1.2, 1.1 and 0.9-fold, respectively, vs. non-treated cells Elicitor-induced taxol production was not accorded with the amount of H2O2 production.     

Salicylic acid-induced taxol production and isopentenyl pyrophosphate biosynthesis in suspension cultures of Taxus chinensis var. mairei

The influences of salicylic acid (SA) on taxol production and isopentenyl pyrophosphate (IPP) biosynthesis pathways in suspension cultures of Taxus chinensis var. mairei were investigated by adding SA and mevastatin (MVS), a highly specific inhibitor of 3-hydroxy-3-methylglutaryl-CoA reductase in the mevalonate pathway for IPP biosynthesis, into the culture systems. The cell death and taxol production were induced upon the introduction of SA, and 20mg/l was proved to be the optimal SA concentration in terms of the less damage to Taxus cells and marked activation of phenylalanine ammonia lyase (PAL). In the coexistence of SA (20mg/l) and MVS (100 nmol/l), the taxol content (1.626 mg/g dry wt) was higher than that (0.252 mg/g dry wt) of the MVS-treated system but almost equal to that (1.581 mg/g dry wt) of the SA-treated system. It is thus inferred that the activated non-mevalonate pathway should be responsible for the formation of IPP in taxol biosynthesis in the presence of SA.     

Paclitaxel production is enhanced in suspension‐cultured hazel (Corylus avellana L.) cells by using a combination of sugar,precursor, and elicitor

Hazel (Corylus avellana L.) has recently been drawing attention as an alternative source of taxol. In the present study, the effects of sugar type, and different concentrations of phenylalanine (Phe) and vanadyl sulfate (V) on the production of taxol in C. avellana were investigated. A factorial experiment was used to optimize the concentrations of the precursor and elicitor. The cells were treated with Phe and V on the fourth day of culture and were harvested every 2 days until the 10th day. By increasing the Phe and V supply, taxol production increased during the culture period and the maximum level of 4.2 μg/g (dry weight) was obtained at day 10 by combining 3 μM of Phe and 0.05 and 0.1 mM of V in media supplemented with fructose (3%). The time course study on taxol production suggested that the appropriate time for using Phe is day 4 of culture, and day 8 for V. Overall, taxol production in C. avellana cell suspension culture was improved by the use of the combined strategy.     

果糖和前体物质对紫杉醇生物合成的影响

研究了果糖和几种前体物质对东北红豆杉生产紫杉醇的影响,结果表明,在第12d加入6g/L果糖可以使紫杉醇产量增加63.89％,在糖协同的作用下,加入前体（0.05mmol/L乙酸钠,0.05mmol/L苯丙氨酸,0.1mmol/L苯甲酸钠）可显著提高紫杉醇的合成,同对照相比,含量分别增加49.36%、13.18%和64.26%,在第15d向培养基中加入0.05 mmol/L乙酸钠、0.1mmol/L苯甲酸钠、1mmol/L苯丙氨酸和6g/L果糖则使紫杉醇含量提高181.89％。