虎杖愈伤组织白藜芦醇次生代谢调控体系研究
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摘要
虎杖(Polygonum cuspidatum Sieb.et Zucc.)为多年生蓼科草本植物,是我国传统中药,其主要活性成分白藜芦醇(Resveratrol)是一种天然抗毒素,同时具有多种药理作用,被誉为最有前途的抗癌药物之一。为了实现该药用植物资源的可持续利用,以获得高含量的白藜芦醇为目标,本研究建立了虎杖愈伤组织无性系。从愈伤组织的光、温培养条件、前体物质苯丙氨酸的添加,以及真菌诱导子、水杨酸与紫外线诱导方面对其展开了系统研究,并通过对诱导培养过程中虎杖愈伤组织生理生化变化的分析,探讨了调控措施对愈伤组织中白藜芦醇生物合成的影响,建立了提高虎杖愈伤组织白藜芦醇含量的调控技术。并得出以下主要结论:
1.通过研究外植体和培养基对愈伤组织的影响,了解到以茎段作为外植体,其愈伤组织生长比叶片快,且其中的白藜芦醇含量为叶片中的5倍;MS培养基上的愈伤组织增殖量最多,其茎段和叶片的鲜重增长率均极显著高于N6和B5培养基,分别达到了141.0%和73.8%,但鲜样中白藜芦醇含量略低于B5培养基。因此,以MS为基本培养基,茎段为外植体诱导出的愈伤组织成愈较高,生长旺盛,维持时间长,白藜芦醇含量高,优于其他处理。
2.通过分析愈伤组织生长与白藜芦醇含量的关系,可见在愈伤组织生长最快时期,白藜芦醇含量增加也达到最高,因此对于虎杖愈伤组织的收获应选择在愈伤组织快速生长达到饱和时的时期,整个培养可在同一种培养基中完成。
3.通过正交实验研究了溶剂种类、时间、温度对愈伤组织中白藜芦醇提取率的影响,极差分析结果显示,提取工艺过程中最重要的因素为提取温度,其次是提取时间,而提取溶剂对白藜芦醇提取率的影响最小。综合评价各指标,用乙酸乙酯在4℃下提取48 h效果最佳。
4.将茎段诱导出的愈伤组织,分别置于暗光(0 lx)、弱光(1340~1560 lx)、强光(3110~3310 lx)三个条件下进行培养,结果显示,愈伤组织的生物量随着光照强度的增强而增加,强光培养下愈伤组织的生物量达到了53.682 g/LFW。但白藜芦醇含量与光照强度不成正相关,弱光培养下,愈伤组织中白藜芦醇的含量显著高于另外两个处理,为140.074μg/gDW。因此虎杖愈伤组织对光敏感,以弱光培养效果最好。25℃培养条件下茎段愈伤组织生长速度适宜,愈伤组织出现较早,愈伤组织中白藜芦醇含量最高。
5.通过不同浓度前体物质苯丙氨酸饲喂虎杖愈伤组织,研究发现10~30 mg/L浓度的苯丙氨酸能促进愈伤组织生物量的增殖,20 mg/L处理愈伤组织生物量增殖最多。用Richards方程模拟愈伤组织的生物量在一个生长周期内的动态积累过程,可以稳健、可靠地估计不加前体物质愈伤组织的生长动态变化,发现苯丙氨酸在一定程度上调节了愈伤组织的增长情况。由生长速率参数(K)可知,随着苯丙氨酸浓度的增加,愈伤组织增长速度加快,极显著高于对照16.5倍以上。且白藜芦醇含量也随着苯丙氨酸浓度的增加而增加,30mg/L处理白藜芦醇的含量达到最大值,鲜样、干样中分别为18.025μg/g和241.489μg/g,较对照高出16.8%和5.7%。
6.前体物质苯丙氨酸能诱导苯丙氨酸裂解酶(PAL)活性的增高,PAL的活性表现出随着添加的苯丙氨酸浓度的增大而升高。各处理PAL活性的变化趋势基本一致,都在培养的第7d达到最大值,表明培养前期,苯丙氨酸浓度的增加促进了PAL活性的增强,为白藜芦醇的合成提供了充足的底物,促进了白藜芦醇的合成。此外添加适量的前体物质能延缓虎杖愈伤组织细胞的衰老,增强愈伤组织的抗性。
7.通过以黑曲霉、青霉、啤酒酵母和灰葡萄孢的粗提物为诱导子对愈伤组织进行诱导,发现黑曲霉诱导子对白藜芦醇合成的促进作用最为显著,比对照提高了50.2%,表明虎杖对真菌诱导子种类具有选择性。同时研究发现以100 mg/L的黑曲霉诱导子效果最好,比对照高128.9%。同时,诱导子添加时间不同对愈伤组织和白藜芦醇含量的影响不同,以第0d加入白藜芦醇含量最高,但对愈伤组织生物量的积累有抑制作用,而在第14d和21d加入诱导子对愈伤组织生物量的积累没有影响。在诱导培养过程中,分析白藜芦醇含量的变化规律发现,培养到第6天白藜芦醇含量达到最高,为227μg/g,而在第6天后白藜芦醇含量开始下降。综合分析可得到虎杖愈伤组织真菌诱导优化方案:在接种后第14d加入100mg/L的黑曲霉诱导子,诱导培养6d后收获,可以使处理中白藜芦醇的含量比对照提高2.25倍。
8.对黑曲霉诱导子组分分离研究结果表明,黑曲霉诱导子提取液中主要是真菌壁多糖诱导了愈伤组织中白藜芦醇的生物合成,而蛋白质对愈伤组织中白藜芦醇的合成有抑制作用。
9.通过分析真菌诱导子对虎杖愈伤组织中苯丙氨酸解氨酶(PAL)、超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)酶活性的影响、内源激素脱落酸(ABA)的变化以及POD和CAT同工酶变化,研究发现真菌诱导子刺激后在培养第1d到第4d内源ABA含量大量产生,呈急剧上升趋势,在第4d达到峰值,PAL活性迅速增加,也在第4d达到最高;同时在培养的前3d,SOD和POD酶活性下降,CAT在第2d出现第一次高峰:当培养到第5d至第6d,对照与诱导处理之间出现很大的差异,SOD与POD活性诱导处理突然出现下降再急剧上升的趋势,而对照则维持较高水平;CAT在第5天出现第二次高峰;POD同工酶有新酶带的出现。
10.通过对水杨酸添加浓度、加入时间、诱导时间的筛选,发现在接种后第14d加入7mg/L的水杨酸,诱导6d的效果最好,可以使白藜芦醇比对照高近1倍,但诱导效果不及黑曲霉诱导子。黑曲霉诱导子与水杨酸、苯丙氨酸的进行不同组合,研究发现各组合对白藜芦醇的合成均有一定促进作用但与单独添加黑曲霉诱导子相比变化不大,黑曲霉诱导子、水杨酸和苯丙氨酸三种物质组合效果最好。
11.紫外光(30W)下20cm处照射,每次照射15 min,停止5 min,重复照射6次,2h照射时间处理,不能提高愈伤组织中自藜芦醇含量。
12.建立了提高虎杖中白藜芦醇含量的调控技术,以虎杖茎段为外植体,在MS+6-BA 1.0+KT 0.2~0.5+NAA 0.2(mg/L)培养基上建立愈伤无性系,转接于液体培养基上,在继代后第14天加入黑曲霉粗提物100 mg/L为诱导子。同时饲喂20mg/L苯丙氨酸和微量水杨酸,在弱光1300lx,25℃培养,加入后第6天收获,可提高虎杖愈伤组织中白藜芦醇含量达3倍以上。
Polygonum Cuspidatum is a kind of herbage belongs to polygonaceae.It is a Chinese traditional medicine.The mostly activity component is Resveratrol in Polygonum Cuspidatum. Resveratrol is consider of a promising natural chemical anticarcinogen.In order to achieve the sustainable use of Polygonum Cuspidatum resources,regard obtaining high-load resveratrol as goal,this research set up Polygonum callus clones.From the callus of light,temperature culture conditions,precursors of phenylalanine added,as well as fungal elicitor,Salicylic acid and UV-induced,we Carried out systematic research.Through to inducing the analysis of training physiological biochemistry of Polygonum cuspidatum callus in the course to change,have canvassed the measure of adjusting and controlling to the biosynthesis influence of resveratrol in the callus,have set up the technology system of improving the resveratrol content of Polygonum cuspidatum.And draw the following main conclusion:
1.Through studying the impact on callus culture from explant and medium,understand that regards stem as explant,its callus grows faster than the blade,and the concentration of resveratrol among them is 5 times in the blade;The callus on MS culture medium is the most in proliferation,fresh heavy growth rate of its section of stem and blade is higher than N6 and B5 culture medium extremely notably,up to 141.0%and 73.8%separately,but the alcohol content of the white black false hellebore is slightly lower than B5 culture medium,but the concentration of resveratrol is slightly lower than B5 culture medium.So regard MS as basic culture medium,stem as explant induce appear callus relatively high,grow vigorously,maintain long time,the concentration of resveratrol is high,superior to other treatment.
2.Passing analyzes the relation between the callus grows and the concentration of resveratrol,it is obvious the callus grows in the fastest period,while the concentration of resveratrol reach the most high too,so Polygonum callus harvest should be selected in the callus Organization of rapid growth when it reached saturation period,the entire culture can be completed in the same medium.
3.Orthogonal experimental study the impact of solvent kind,time and temperature on the extraction rate of resveratrol,the variance analysis show that the most important factor is the extraction temperature,secondly the extraction time,and it is minimum to show the impact on drawing extraction rate of the resveratrol of solvents.Comprehensive all,using the ethyl acetate extract 4℃under 48 h is the best results.
4.The callus inducing out the stem section,locate in dark mere(0 lx),weak light(1340-1560 separately Lx),strong light(3110-3310 Train under lx) three conditions,the result reveals,the biomass of the callus increases with enhancement of illumination intensity,the strong light trains the biomass of the lower callus to be up to 53.682 g/LFW.But the resveratrol content and illumination intensity of the resveratrol do not become positive correlation,only train weakly,the content of resveratrol is higher than other two to deal with notably in the callus,it is 140.074μg/ gDW.So the Polygonum cuspidatum callus is sensitive to the light,by only training the result to be best weakly.25℃trains one section of calluses growth speed of stem under the condition to be suitable,the callus relatively appears early,resveratrol has the highest content,is superior to other treatment in the callus.
5.Feed Polygonum Callus on the different concentrations of phenylalanine precursor substances, the study found that 10~30 mg/L concentrations of phenylalanine can promote callus proliferation of biomass,20 mg/L deal Callus proliferation of the largest biomass.Richards equation with simulated callus biomass growth cycle in a process of dynamic accumulation,found no precursor substances in the circumstances,can get steady and reliable estimates,phenylalanine in a certain extent,the regulation of callus increased.By the rate of growth parameters(K),we can see that with the increase in the concentration of phenylalanine,callus growth rate accelerated significantly higher than the control,higher than the 16.5 times.The resveratrol also with the content and phenylalanine concentration increases,30mg/L deal with the maximum concentration of resveratrol,fresh,dried samples were 18.025μg / g and 241.489μg/g,controls more than 16.8%and 5.7%.
6.Precursor substances phenylalanine can induce phenylalanine pyrolysis of enzyme activity,PAL activity of the show along with the added phenylalanine concentrations higher increase.To deal with all the activity of PAL's basically the same trend,both in the development of the first 7 d maximum,pre-show culture,phenylalanine concentration promoted an increase in PAL enzyme activity increased,for the synthesis of resveratrol the substrate to provide adequate and promote the synthesis of resveratrol.Therefore,add the appropriate amount of precursor substances to delay the Polygonum callus cell senescence,increased resistance to the callus.
7.Through Aspergillus niger,Penicillium,brewer's yeast and the Botrytis cinerea extracts for the induction of sub callus induction carried out and found niger-induced synthesis of resveratrol on the most significant role in the promotion,improved control 50.2%that of Polygonum-type fungi induced selective.At the same time,in order to study found that 100 mg/ L of niger-induced best, 128.9%higher than the control group.When elicitor was added at different times,it was to different influence on callus and content of resveratrol.The content of resveratro was highest at the beginning,but the callus on the accumulation of biomass is a disincentive and in the first 14d and 21d join the sub-induced callus on the accumulation of biomass did not affect.In the process of induction training,the content of resveratro changes in the law of the analysis.It found that the cultured content of resveratro reached highest in the first 6d and the content was 227μg/g,but after the first 6d the content of resveratro started to decline.As a result,by a comprehensive analysis,we receive a best program:
Of fungi induced callus.On the 14 day of Polygonum callus was inoculated, elicitor(100mg/L)from Aspergillus niger was added into the medium,the introduction of elicitor from Aspergillus niger the content of resveratrol in Polygonum callus was 2.25 times higher than that of the control.
8.Aspergillus Niger inducer separation results show that Aspergillus niger-induced extract the main wall is a fungal polysaccharide induced a callus in the biological synthesis of resveratrol,and the composition of protein in callus inhibit the synthesis of resveratrol.
9.Through fungal elicitor of Polygonum callus in PAL(PAL),superoxide dismutase(SOD), peroxidase(POD) and catalase(CAT) activity,Endogenous hormone changes in the ABA,as well as CAT and POD isozyme analysis found that the fungal elicitor stimulated the first Culture in 1d to 4d endogenous ABA have a lot of content,showed a sharp upward trend in the first 4d peak, PAL activity increased rapidly,reaching a peak in the first 4d;at the same time in training before the 3d,SOD and POD activity decreased,CAT in the first 2d appeared for the first peak;when the first train to 5d to 6d,a great deal of difference between Control and induced,SOD activity with POD induced processing suddenly dropped sharply,then a sharp upward trend,while the control is at a fairly high level;CAT at the 5th day of the second peak;POD isozyme have with the emergence of a new enzyme;and CAT MB is no significant change.
10.Filtrating the adding the concentration of salicylic acid,adding time and screening time,By adding salicylic acid of 7mg/L by the last 14d,induced 6d of the best,we can make resveratrol nearly 1 time higher than the control group,but the effects induced by Aspergillus niger as elicitor. A.Niger elicitor and salicylic acid,phenylalanine in different combinations,the combination of resveratrol synthesis have a certain role,but with a separate add-in comparison A,niger induced change little,induced by A..niger,salicylic acid and phenylalanine is the most effective combination of three types of material.
11.By exposuring UV(30W) under the department 20cm at per 15 min,stopped 5 min and repeated exposure to 6 times,the content of resveratro can not raise in 2h exposure processing.
12.Set up the technology system to improve the resveratrol of Polygonum cuspidatum,regard stem section of Polygonum cuspidatum as explant,establishing callus clones on MS十6-BA 1.0十KT 0.2~0.5十NAA 0.2(mg/L) culture medium,Switching adds crude extract of dark Aspergillus 100 mg/L as Niger inducer on the 14th day after taking the place of on liquid culture medium,feeds 20 mg/L phenylalanine and minim salicylic acid at the same time,trains in weak mere 13001x,25℃.On the 6th day after adding,we can improve by more than 3 times of resveratrol in Polygonum cuspidatum callus.
1.通过研究外植体和培养基对愈伤组织的影响,了解到以茎段作为外植体,其愈伤组织生长比叶片快,且其中的白藜芦醇含量为叶片中的5倍;MS培养基上的愈伤组织增殖量最多,其茎段和叶片的鲜重增长率均极显著高于N6和B5培养基,分别达到了141.0%和73.8%,但鲜样中白藜芦醇含量略低于B5培养基。因此,以MS为基本培养基,茎段为外植体诱导出的愈伤组织成愈较高,生长旺盛,维持时间长,白藜芦醇含量高,优于其他处理。
2.通过分析愈伤组织生长与白藜芦醇含量的关系,可见在愈伤组织生长最快时期,白藜芦醇含量增加也达到最高,因此对于虎杖愈伤组织的收获应选择在愈伤组织快速生长达到饱和时的时期,整个培养可在同一种培养基中完成。
3.通过正交实验研究了溶剂种类、时间、温度对愈伤组织中白藜芦醇提取率的影响,极差分析结果显示,提取工艺过程中最重要的因素为提取温度,其次是提取时间,而提取溶剂对白藜芦醇提取率的影响最小。综合评价各指标,用乙酸乙酯在4℃下提取48 h效果最佳。
4.将茎段诱导出的愈伤组织,分别置于暗光(0 lx)、弱光(1340~1560 lx)、强光(3110~3310 lx)三个条件下进行培养,结果显示,愈伤组织的生物量随着光照强度的增强而增加,强光培养下愈伤组织的生物量达到了53.682 g/LFW。但白藜芦醇含量与光照强度不成正相关,弱光培养下,愈伤组织中白藜芦醇的含量显著高于另外两个处理,为140.074μg/gDW。因此虎杖愈伤组织对光敏感,以弱光培养效果最好。25℃培养条件下茎段愈伤组织生长速度适宜,愈伤组织出现较早,愈伤组织中白藜芦醇含量最高。
5.通过不同浓度前体物质苯丙氨酸饲喂虎杖愈伤组织,研究发现10~30 mg/L浓度的苯丙氨酸能促进愈伤组织生物量的增殖,20 mg/L处理愈伤组织生物量增殖最多。用Richards方程模拟愈伤组织的生物量在一个生长周期内的动态积累过程,可以稳健、可靠地估计不加前体物质愈伤组织的生长动态变化,发现苯丙氨酸在一定程度上调节了愈伤组织的增长情况。由生长速率参数(K)可知,随着苯丙氨酸浓度的增加,愈伤组织增长速度加快,极显著高于对照16.5倍以上。且白藜芦醇含量也随着苯丙氨酸浓度的增加而增加,30mg/L处理白藜芦醇的含量达到最大值,鲜样、干样中分别为18.025μg/g和241.489μg/g,较对照高出16.8%和5.7%。
6.前体物质苯丙氨酸能诱导苯丙氨酸裂解酶(PAL)活性的增高,PAL的活性表现出随着添加的苯丙氨酸浓度的增大而升高。各处理PAL活性的变化趋势基本一致,都在培养的第7d达到最大值,表明培养前期,苯丙氨酸浓度的增加促进了PAL活性的增强,为白藜芦醇的合成提供了充足的底物,促进了白藜芦醇的合成。此外添加适量的前体物质能延缓虎杖愈伤组织细胞的衰老,增强愈伤组织的抗性。
7.通过以黑曲霉、青霉、啤酒酵母和灰葡萄孢的粗提物为诱导子对愈伤组织进行诱导,发现黑曲霉诱导子对白藜芦醇合成的促进作用最为显著,比对照提高了50.2%,表明虎杖对真菌诱导子种类具有选择性。同时研究发现以100 mg/L的黑曲霉诱导子效果最好,比对照高128.9%。同时,诱导子添加时间不同对愈伤组织和白藜芦醇含量的影响不同,以第0d加入白藜芦醇含量最高,但对愈伤组织生物量的积累有抑制作用,而在第14d和21d加入诱导子对愈伤组织生物量的积累没有影响。在诱导培养过程中,分析白藜芦醇含量的变化规律发现,培养到第6天白藜芦醇含量达到最高,为227μg/g,而在第6天后白藜芦醇含量开始下降。综合分析可得到虎杖愈伤组织真菌诱导优化方案:在接种后第14d加入100mg/L的黑曲霉诱导子,诱导培养6d后收获,可以使处理中白藜芦醇的含量比对照提高2.25倍。
8.对黑曲霉诱导子组分分离研究结果表明,黑曲霉诱导子提取液中主要是真菌壁多糖诱导了愈伤组织中白藜芦醇的生物合成,而蛋白质对愈伤组织中白藜芦醇的合成有抑制作用。
9.通过分析真菌诱导子对虎杖愈伤组织中苯丙氨酸解氨酶(PAL)、超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)酶活性的影响、内源激素脱落酸(ABA)的变化以及POD和CAT同工酶变化,研究发现真菌诱导子刺激后在培养第1d到第4d内源ABA含量大量产生,呈急剧上升趋势,在第4d达到峰值,PAL活性迅速增加,也在第4d达到最高;同时在培养的前3d,SOD和POD酶活性下降,CAT在第2d出现第一次高峰:当培养到第5d至第6d,对照与诱导处理之间出现很大的差异,SOD与POD活性诱导处理突然出现下降再急剧上升的趋势,而对照则维持较高水平;CAT在第5天出现第二次高峰;POD同工酶有新酶带的出现。
10.通过对水杨酸添加浓度、加入时间、诱导时间的筛选,发现在接种后第14d加入7mg/L的水杨酸,诱导6d的效果最好,可以使白藜芦醇比对照高近1倍,但诱导效果不及黑曲霉诱导子。黑曲霉诱导子与水杨酸、苯丙氨酸的进行不同组合,研究发现各组合对白藜芦醇的合成均有一定促进作用但与单独添加黑曲霉诱导子相比变化不大,黑曲霉诱导子、水杨酸和苯丙氨酸三种物质组合效果最好。
11.紫外光(30W)下20cm处照射,每次照射15 min,停止5 min,重复照射6次,2h照射时间处理,不能提高愈伤组织中自藜芦醇含量。
12.建立了提高虎杖中白藜芦醇含量的调控技术,以虎杖茎段为外植体,在MS+6-BA 1.0+KT 0.2~0.5+NAA 0.2(mg/L)培养基上建立愈伤无性系,转接于液体培养基上,在继代后第14天加入黑曲霉粗提物100 mg/L为诱导子。同时饲喂20mg/L苯丙氨酸和微量水杨酸,在弱光1300lx,25℃培养,加入后第6天收获,可提高虎杖愈伤组织中白藜芦醇含量达3倍以上。
Polygonum Cuspidatum is a kind of herbage belongs to polygonaceae.It is a Chinese traditional medicine.The mostly activity component is Resveratrol in Polygonum Cuspidatum. Resveratrol is consider of a promising natural chemical anticarcinogen.In order to achieve the sustainable use of Polygonum Cuspidatum resources,regard obtaining high-load resveratrol as goal,this research set up Polygonum callus clones.From the callus of light,temperature culture conditions,precursors of phenylalanine added,as well as fungal elicitor,Salicylic acid and UV-induced,we Carried out systematic research.Through to inducing the analysis of training physiological biochemistry of Polygonum cuspidatum callus in the course to change,have canvassed the measure of adjusting and controlling to the biosynthesis influence of resveratrol in the callus,have set up the technology system of improving the resveratrol content of Polygonum cuspidatum.And draw the following main conclusion:
1.Through studying the impact on callus culture from explant and medium,understand that regards stem as explant,its callus grows faster than the blade,and the concentration of resveratrol among them is 5 times in the blade;The callus on MS culture medium is the most in proliferation,fresh heavy growth rate of its section of stem and blade is higher than N6 and B5 culture medium extremely notably,up to 141.0%and 73.8%separately,but the alcohol content of the white black false hellebore is slightly lower than B5 culture medium,but the concentration of resveratrol is slightly lower than B5 culture medium.So regard MS as basic culture medium,stem as explant induce appear callus relatively high,grow vigorously,maintain long time,the concentration of resveratrol is high,superior to other treatment.
2.Passing analyzes the relation between the callus grows and the concentration of resveratrol,it is obvious the callus grows in the fastest period,while the concentration of resveratrol reach the most high too,so Polygonum callus harvest should be selected in the callus Organization of rapid growth when it reached saturation period,the entire culture can be completed in the same medium.
3.Orthogonal experimental study the impact of solvent kind,time and temperature on the extraction rate of resveratrol,the variance analysis show that the most important factor is the extraction temperature,secondly the extraction time,and it is minimum to show the impact on drawing extraction rate of the resveratrol of solvents.Comprehensive all,using the ethyl acetate extract 4℃under 48 h is the best results.
4.The callus inducing out the stem section,locate in dark mere(0 lx),weak light(1340-1560 separately Lx),strong light(3110-3310 Train under lx) three conditions,the result reveals,the biomass of the callus increases with enhancement of illumination intensity,the strong light trains the biomass of the lower callus to be up to 53.682 g/LFW.But the resveratrol content and illumination intensity of the resveratrol do not become positive correlation,only train weakly,the content of resveratrol is higher than other two to deal with notably in the callus,it is 140.074μg/ gDW.So the Polygonum cuspidatum callus is sensitive to the light,by only training the result to be best weakly.25℃trains one section of calluses growth speed of stem under the condition to be suitable,the callus relatively appears early,resveratrol has the highest content,is superior to other treatment in the callus.
5.Feed Polygonum Callus on the different concentrations of phenylalanine precursor substances, the study found that 10~30 mg/L concentrations of phenylalanine can promote callus proliferation of biomass,20 mg/L deal Callus proliferation of the largest biomass.Richards equation with simulated callus biomass growth cycle in a process of dynamic accumulation,found no precursor substances in the circumstances,can get steady and reliable estimates,phenylalanine in a certain extent,the regulation of callus increased.By the rate of growth parameters(K),we can see that with the increase in the concentration of phenylalanine,callus growth rate accelerated significantly higher than the control,higher than the 16.5 times.The resveratrol also with the content and phenylalanine concentration increases,30mg/L deal with the maximum concentration of resveratrol,fresh,dried samples were 18.025μg / g and 241.489μg/g,controls more than 16.8%and 5.7%.
6.Precursor substances phenylalanine can induce phenylalanine pyrolysis of enzyme activity,PAL activity of the show along with the added phenylalanine concentrations higher increase.To deal with all the activity of PAL's basically the same trend,both in the development of the first 7 d maximum,pre-show culture,phenylalanine concentration promoted an increase in PAL enzyme activity increased,for the synthesis of resveratrol the substrate to provide adequate and promote the synthesis of resveratrol.Therefore,add the appropriate amount of precursor substances to delay the Polygonum callus cell senescence,increased resistance to the callus.
7.Through Aspergillus niger,Penicillium,brewer's yeast and the Botrytis cinerea extracts for the induction of sub callus induction carried out and found niger-induced synthesis of resveratrol on the most significant role in the promotion,improved control 50.2%that of Polygonum-type fungi induced selective.At the same time,in order to study found that 100 mg/ L of niger-induced best, 128.9%higher than the control group.When elicitor was added at different times,it was to different influence on callus and content of resveratrol.The content of resveratro was highest at the beginning,but the callus on the accumulation of biomass is a disincentive and in the first 14d and 21d join the sub-induced callus on the accumulation of biomass did not affect.In the process of induction training,the content of resveratro changes in the law of the analysis.It found that the cultured content of resveratro reached highest in the first 6d and the content was 227μg/g,but after the first 6d the content of resveratro started to decline.As a result,by a comprehensive analysis,we receive a best program:
Of fungi induced callus.On the 14 day of Polygonum callus was inoculated, elicitor(100mg/L)from Aspergillus niger was added into the medium,the introduction of elicitor from Aspergillus niger the content of resveratrol in Polygonum callus was 2.25 times higher than that of the control.
8.Aspergillus Niger inducer separation results show that Aspergillus niger-induced extract the main wall is a fungal polysaccharide induced a callus in the biological synthesis of resveratrol,and the composition of protein in callus inhibit the synthesis of resveratrol.
9.Through fungal elicitor of Polygonum callus in PAL(PAL),superoxide dismutase(SOD), peroxidase(POD) and catalase(CAT) activity,Endogenous hormone changes in the ABA,as well as CAT and POD isozyme analysis found that the fungal elicitor stimulated the first Culture in 1d to 4d endogenous ABA have a lot of content,showed a sharp upward trend in the first 4d peak, PAL activity increased rapidly,reaching a peak in the first 4d;at the same time in training before the 3d,SOD and POD activity decreased,CAT in the first 2d appeared for the first peak;when the first train to 5d to 6d,a great deal of difference between Control and induced,SOD activity with POD induced processing suddenly dropped sharply,then a sharp upward trend,while the control is at a fairly high level;CAT at the 5th day of the second peak;POD isozyme have with the emergence of a new enzyme;and CAT MB is no significant change.
10.Filtrating the adding the concentration of salicylic acid,adding time and screening time,By adding salicylic acid of 7mg/L by the last 14d,induced 6d of the best,we can make resveratrol nearly 1 time higher than the control group,but the effects induced by Aspergillus niger as elicitor. A.Niger elicitor and salicylic acid,phenylalanine in different combinations,the combination of resveratrol synthesis have a certain role,but with a separate add-in comparison A,niger induced change little,induced by A..niger,salicylic acid and phenylalanine is the most effective combination of three types of material.
11.By exposuring UV(30W) under the department 20cm at per 15 min,stopped 5 min and repeated exposure to 6 times,the content of resveratro can not raise in 2h exposure processing.
12.Set up the technology system to improve the resveratrol of Polygonum cuspidatum,regard stem section of Polygonum cuspidatum as explant,establishing callus clones on MS十6-BA 1.0十KT 0.2~0.5十NAA 0.2(mg/L) culture medium,Switching adds crude extract of dark Aspergillus 100 mg/L as Niger inducer on the 14th day after taking the place of on liquid culture medium,feeds 20 mg/L phenylalanine and minim salicylic acid at the same time,trains in weak mere 13001x,25℃.On the 6th day after adding,we can improve by more than 3 times of resveratrol in Polygonum cuspidatum callus.
引文
[1]国家药典委员会编,中华人民共和国药典.2000年版,一部,北京,化学工业出版社:2000
[2]毛永芬,窦夏密.虎杖的性能特点及临床应用.河北中医,2003,25(8):634-635
[3]Xiao K,Xun LJ,Xu YM,et al.Constitiuents from Polygonum cuspidatum.Chemical Pharmaceutical Bullitin,2002,50(5):605-608
[4]薛岚.中药虎杖的药理研究进展.中国中药杂志,2000,25(11):651-653
[5]楼月丽.虎杖的临床应用.湖南中医药导报,1998,5,4(5):11-12
[6]Chu QC,Peng YY,Ye JN,et al.Determination of active ingredients of Polygonum cuspidatum sied.et z.by cappillary electrophoresis with electrochemical datection.Electroanalysis,2004,16(17):1434-1438
[7]Hegde VR,Pu H,Patel M et al.Two new bacterial DNA primase inhibitors from the plant Polygonum cuspiddatum.Bioorganic and Medical Chemistry Letter,2004,14:2275-2277
[8]Kima YS,Hwang CS,Shin DH.Volatile constituents from the leaves of Polygonum cuspiddatum sled et z.and their anti-bacterial activies.Food Microbiology,2005,22:139-144
[9]Kima Y,Okuda H.Resveratrol isolated Polygonum cuspiddatum root prevents tumor growth and metastasis to lung and tumor-induced neovasculaeization in Lewis lung carinoma-bearing mice.European Journal of Nutrition,2001,131(6):1844-1849
[10]Bradamante S,Barenghi L,Piccinini F,et al.Resveratrol provides late-phase cardioprotection by mean of a nitric oxide and adenosine mediated mechanism.European Journal of Pharmacology,2003,465(1-2):115-123
[11]李银春,赵振成.虎杖.特种经济动植物,2004,(7):25
[12]肖凯,宣利江,徐亚明等.虎杖的化学成分研究,中国药学杂志,2003,138(1):12-14
[13]吴兆祥,徐同印.虎杖栽培管理.时珍国医国药,1999,10(3):1-3
[14]张喜云.虎杖的化学成分药理作用与提取分离.天津药学,1998,8,11(3):13-14
[15]Naczk M,Shahidi F.Extraction and analysis of phenolics in food.Journal of Chromatography A,2004,1054:95-111
[16]肖凯,宣利江,徐亚明等.虎杖的水溶性成分研究.中草药,2003,34(6):496-498
[17]Park CS,Lee YC,Kim JD,et al.Inhibitory effects of Polygonum cuspiddatum water extract(PCWE)AANDITS component rasveratrol on acyl-coenzyme A-cholesterol acyltransferase activity for cholesteryl ester sythesis in HepG2 cells.Vascular Pharmacology,2004,40:279-284
[18]Skerget M,Kotnik P,Hadolin M,et al.Phenols,proanthocyanidins,flaconed andflavonols in some plant materials and their antioxidant activities.Food Chemistry,89:191-198
[19]Karakaya S,Sedef EL.Quercetin,luteolin,apigenin and kaempferol contents of some foods.Food Chemistry,1999,66:289-292
[20]Kuzentsova Z.P.Study of phenolic compounds from Japanese Knotweed vestsiAkad navuk BSS.Ser biyal navuk,1979,(5):29-32
[21]王振中,张民仕.六种蓼科植物中大黄素含量比较分析.江苏药学与临床研究,1996,4(4):29-30
[22]Yim TK,Wu WK,Mak D.Myocardial protective effect of an anthraquinone contatining extract of Polygonum multiflorum..Planta Medica,1998,64:607.
[23]肖凯.蓼属中药何首乌、虎杖、拳参水溶性成分结构与生物活性的研究:博士学位论文.上海:中国科学院上海药物研究所,2000
[24]欧阳长庚.虎杖化学成分.中草药,1987,18(8):45
[25]汪篪。虎杖中游离蒽醌衍生物的提取及利用.贵州师范大学学报(自然科学版).1998,16(2):47-49
[26]Maracami T,Tanaka K.Wasser-loslich polysucharide aus den warzeln VonPolygonum Cuspidatum Zucc,Chem Pharm Bull,1973,21(7):1506
[27].Seichi S,Kanihiro T,Ikao K.A filter for oxidation of carbon monoxid.Jpn kokaitokkyo koko,1977,12:77
[28]Jang M,Cai L,Udeani GO,et al.Cancer chemo-preventive activity of resveratrol,a natural p roduct derived from grapes.Science,1997,275-218-220
[29]王磊,黄澜,张勉等.虎杖商品药材中白藜芦醇的含量测定.中国中药杂志,2002,27(5):344-347
[30]曹庸,于华忠,李国章等.虎杖不同季节、不同组织部位白藜芦醇含量动态变化研究.中国药学杂志,2004,39(5):337-339
[31]夏海武,吕柳新.虎杖不同部位白藜芦醇含量的分析.植物资源与环境学报,2005,14(3):55-56
[32]于树宏,查建蓬,詹文红等.虎杖野生植株及组织培养物中白藜芦醇和虎杖苷含量的比较.中国中药杂志,2006,31(8):1637-641
[33]梁陈方,李锦炎.不同采收期虎杖中自藜芦醇苷含量比较.广西医学,2006,28(9):1428-1429
[34]王玉玺.不同采收时间虎杖药材中白藜芦醇苷含量差异研究.时珍国医国药,2004,15(2):82-83
[35]谭智渊,周国海,刘盛开等.不同生境条件对虎杖白藜芦醇含量的影响.经济林究,2006,24(1):64-66
[36]曹庸,张敏,于华忠等.气象因子和矿质元素对虎杖根茎白藜芦醇含量的影响.应用生态学报,2004,15(7):1143-1147
[37]陈雷,杨福泉等.虎杖中白藜芦醇和白藜芦醇苷的高速逆流色谱分离提纯及其分析.分析测试学报,2000,7,19(4):60-62
[38]江海燕,朱华等.炮制对虎杖中白藜芦醇的苷和大黄素的影响.中草药,2003,5,35(5):412-415
[39]江海燕,卢忠朋等.HPLC法测定不同虎杖炮制品中白藜芦醇苷的含量.中草药,2004(5):523-524
[40]张敏,曹庸.虎杖白藜芦醇提取工艺的初步研究.林产化工通讯,2004,38(3):6-9
[41]侯团章,曾建国,梁桦等.一种从虎杖中制备白藜芦醇的方法.中国专利,CN 1341587A,2002-3-27
[42]邹贤德,舒鑫.提高中药虎杖中白黎芦醇含量的方法.中国专利,CN1385535A,2002-12-18
[43]向海艳,周春山.酶法提取虎杖中自藜芦醇新工艺研究.林产化学与工业,2004,12,24(4):77-80
[44]欧菊泉,陈冒香,丁利华等.虎杖愈伤组织的诱导及其白藜芦醇形成初探.中南林学院学报,2006,26(3):24-27,50
[45]曹庸,陈雪,唐永红等.虎杖愈伤组织的诱导及高产白藜芦醇材料的筛选.生命科学研究,200610(3):270-275
[46]于树宏,赵丽丽,王伟等.影响虎杖毛状根高频诱导的因素探讨.西北植物学报,2005,25(9):1740-1746
[47]唐永红,曹庸,黄早成等.真菌B-39与虎杖悬浮细胞的共培养.微生物学通报,2007,34(3):545-548
[48]曹庸,于华忠,张敏等.HPLC法测定虎杖白藜芦醇的含量及其稳定性研究.林学与工业,2004,24(2):61-64
[49]Zaid A.In vitro browning of tissues and media with special emphasis to tepalmcultures a review.acta hort 1987,212:561-566
[50]吉林,文多.白黎芦醇的开发与应用.精细化工原料及中间体,2003,10:19-22
[51]舒友琴,陈敏.白藜芦醇和白藜芦醇苷的研究进展.郑州牧业工程高等专科学校学报,2003,23(4):245-247
[52]王世盛,赵伟杰,刘志广.天然多羟基芪化合物的生物活性.国外医药.植物药分册,2001,16:9-11
[53]郝春燕,苏海翔等.白藜芦醇通过Fas依赖途径诱导K562细胞凋亡.实用癌症杂志,2004,11,19(6):22-25
[54]李靖,程桂芳等.Gn类化合物对小鼠腹腔巨噬细胞产生肿瘤坏死因子α的影响.药学学报,2000,35(5):335-338
[55]Bruce German J.The health benefits of wine.Annual Revi Nutr,2000,(20):561-593
[56]Keseng Z,Chunhua J.The mechanism of Polydatin in shock treatment.Clinical Hemorheology and Microcirculation,2003(29):211-217
[57]周建军.虎杖中二苯乙烯类化合物药理作用研究进展.西北药学报,2000:15(2):86-88
[58]王劲松.葡萄与葡萄酒中白藜芦醇的含量及其影响因素.宁夏农林科技,2003(6):26
[59]堵年生,屈兰等.新疆葡萄籽化学成分的研究.新疆医科大学学报,2003(6):121-124
[60]李记明,赵光鳌等.干红葡萄酒中白藜芦醇的含量与分布.葡萄栽培与酿酒,2004(4):8-10,14
[61]Sukala K,Katta V,Ku M,.Estimation of trans-Resveratrol in Herbal Extracts and Dosage Forms by High-Performance Thin-Layer Chromatography.Chem.Pharm.Bull,2005,53(6):691-693
[62]Liu Z,Li W.Effects of trans-resveratrol from polygonum cuspidatum on bone loss using the ovariectomized rat model.J Med Food,2005 spring,8(1):9-14
[63]薛岚.中药虎杖的药理研究进展.中国中药杂志,2000(11):651-653
[64]骆苏芳,金行中等.虎杖有效成分3,4',5-三羟基芪-3-β-D-葡萄糖苷的研究.中国药理学与毒理学杂志,1999,213(1):25-26
[65]Pont V,Peet V.Relation between the chemicalst ructure and the biolgical activity of hydroxystilbenes against Botrytis cinerea.J.Phytopathology,1990,130:1-8
[66]党尉,尉亚辉,曹辉.白藜芦醇合酶的研究进展.植物学通报,2003,20(2):152-159
[67]Schroder G,Schroder J.A single change to flristidine to glutamine alters the substratepre fence of a stilben synthase.J Biochem Chem,1992,267(29):20558-20560
[68]Schwekendiek A,Pfeffer G,Kindl H,Pine stilbene synthase cDNA,a tool for probing environmental stress.FEBS,1992,301(1):41-44
[69]Hiroyuki Ohashi,Tsutomu Takayanagi,Tohru Okuda,et al.Structure of grapevine stilbene synthase genes inducing different amounts of resveratrol under.Elicitor treatment,Amj E nol Vitic,2001,52(3):254
[70]田雪梅,张展霞.白藜芦醇抗肿瘤作用的体外实验研究.中山大学学报(自然科学版),2000,39(6):64-67
[71]Kodan A,Kuroda H,Sakai F.A Stilbene synthasw from Japanese red pine(Pinus densiflora):Implications for phytoalexin accumulation and down-regulatiun of flavonid biosythesis.PNAS,2002,99(5):3335-3339
[72]Fliegmann J,Schroder G,Schanz S,et al.Molecular analysis of chalcone and dihydropinosyivin synthase from Scots pine(Pinus sylvestris) and differential regulationof these and related enzyme activities in stressed plants.Plant Mol Biol,1992,18:489-503
[73]Yamaguchi T,Kurosaki F,Suh D Y,et al.Cross-reactionof thal cone synthase and stilbene synthase over expressed in Escherichia coli.FEBS,1999,460:457-461
[74]Tropf S,Kareher B,Schroder G,et al.Reaction mechanisms of homodimeric plant polyketide synthases(stilbene and chalcone synthase).J Biochem Chem,1995,270(14):7922-7937
[75]Schroder J,Lanz T,Schroder G.Genes for biosynthasis of stilbene typephytoalexins.UCLA.Aymp M ole Cell Biol,1991,34(3):417-426
[76]Schoeppner A.Purification and properties of stibenne synthase from induced cell suspensionc ultures of peanut.Biol Chem,1984,259(11):68 06-6811
[77]Morita H,N oguchi H,Schroder J,et al.Novel polyketides synthesized with a higher plant stilbene synthase.Eur J Biochem,2001,268:3759-3766
[78]Lanz T,Tropf S,Mamer FJ,et al.The role of cysteines in polyketide synthase.J Bioehem Chem,1991,266(15):9971-9976
[79]Lanz T,Susanne T.The role eycteinesin polyketide synthse:site-directed mutagenesis of resveratrol and chalone synthase,two key enzymes in diferent plant specific pathmays.Biol Chem,1991,266(1):9971-9 976
[80]Schroder G,Schroder J.A single change of histidine to glutamine alters the substrate preference of a stilbene synthase.J Biochem Chem,1992,267(29):20558-20560
[81]Hain G,Reif H,Krause E,et al.Disease resistance results from foreign phytoalexin expression in a novel plant.Nature,1993,361:153-156
[82]Schroder G,BrownJ W,Schroder J.Molecular analysisof resveratrol synthase:cDNA,genomic clones and relationship with chaleone synthase.Eur J Biochem,1988,172(1):161-169
[83]Hiroyuki Ohashi,Tsutomu Takayanagi,Tohru Okuda,et al.Structureof grapevine stilbene synthase gene sinducing different amountsof resveratrol under elicitor treatment.Am J Enol Vitic,2001,52(3):284
[84]Chung I M,Park M R,Rehman S,et al.Tissue specific and inducible expression of resveratrol synthase gene in peanut plants.Mol Cells,2001,2(3):353-359
[85]HipskindJ D,Paiva N.Constitutive accumulation of a resveratrol glucoside in transgenic alfalfa increases resistance to Phoma medicaginis.Molecular Plant Microbe Interactions,2000,13:551-562
[86]Suh DY,Kagami J,Fukuma k,et al.Chalcone and stilbene synthases expressed in eucaryotes exhibit reduced cross-reactivity in vitro.Chem Pharm Bull,2000,48:1051-1054
[87]Liswidowati ME,Hohmann F.Induction of stibene synthade by Botrytis cinerea in cultured grapevine cells.Planta,1991,183(2):307-314
[88]Schoppner A,Kindl H.Stilbene synthase(Pinosylvine synthase) and its induction by ultraviolet light.FEBS,1979,108(2):349-352
[89]Liswidowati,Melchior F,Hohmann F,et al.Induction of stilbene synthase by Botrytis cinerea in cultured grapevine cells.Plant,1991,183:307-314
[90]Gehlert R,Schoppner A,Kindl H.Stilbene synthasefrom seedingsof Pinus sylvestris purification and induction in response to fungal infection.Mol Plant-Microbe Interactions,1990,3(6):444-449
[91]Aavo Aaviksaar,Mati Haga.Hydroxy stilbenes in the root of Rheum rhaponticum.Proc.Estonian Acad.Sci.Chem,2003,52,3:99-107
[92]Zhi Hua Zhou,Makoto Miwa.Patch establishment and development of a clonal plant,Polygonum cuspidatum,,on Mount Fuji.Molecular Ecolugy,2003(12):1361-1373
[93]汪冬庚,刘文英等.HPLC法测定虎杖提取物中白藜芦醇和大黄素的含量.中草药,2004,(10):1126-1128
[94]俸灵林,郑昕等.RP-HPLC法同时测定虎杖中自藜芦醇和白藜芦醇苷的含量.天然产物研究与开发,2004,16(6):534-538
[95]卓广澜,沈振陆,姜玄珍.天然产物(E)-白藜芦醇的全合成.中国药物化学杂志,2002,,12(3):152-154
[96]王尊元,马臻,李强等.白黎芦醇的合成.中国医药工业杂志,2003,34(9):428-429
[97]李晓光,王三永,李春荣等.白黎芦醇的合成研究.中国食品添加剂,2002,5:25-27
[98]赵霞,陆阳,陈泽乃.白藜芦醇的化学药理研究进展.中草药,1998,29(12):837-839
[99]戴群,赵光鳌.HPLC测定葡萄中活性物质一白藜芦醇的含量.工业微生物,1999,29(3):22-23
[100]韩雅珊,陈雷,戴蕴青.高效液相色谱法测定葡萄酒中的白藜芦醇色谱,1999,17(4):366-368
[101]吴叶,程宁,洪筱坤.HPLC法测定清胆胶囊中白藜芦醇、陈皮甙的含量.中成药,1999,21(5):226-228
[102]Jeandet P,Bessis R,Maume BF,et al.Analysis of resveratrol in Burgundy wines.J Wine Res,1993,4:79-85
[103]Jeandet P,Bessis R,Sbaghi M,et al.Resveratrol content of wines of different ages:relation ship with fungal disease pressure in the vineyard.Am.J.Enol.Vitie,1995,46:1-4
[104]Jeandet P,Bessis R,Maume BF,et al.Effect of enological practices on the resveratrolisomer content of wine.J Agric Food Chem,1995,43316-319
[105]Jeandet P,Breuil AC,Adrian M,et al.HPLC analysis of grapevine phytoalexins cou-pling todiode array detection and fluorometry.Anal.Chem,1997,69:5172-5177
[106]Goldberg DM,Yan J,Diamandis EP,et al.Direct injeeion gas chromatographic-mass spectrometric assay for bans-resveratrol.Anal.Chem,1994,66:3959-3963
[107]Goldberg DM,Karumanchiri A,Yan J,et al.Direct gas chromatographic-mass spectrometric method to assay cisresveratrol in wines:preliminary survey of its con-centration in commercial wines.J.Agric.Food chem,1995,43:1245-1250
[108]Golbderg DM,Yan J,Diamandis EP,et al.A global survey of trans-resveratrol conce-mrations in commercial wines.Am.J.Enol.Vitic,1995,46:159-165
[109]Goldberg D,Yan J,Karumanchiri A,et al.Regional differences in resveratrol isomer concentrations of wines from various cultivars.J.Wine Res,1996,7:13-24
[110]Gonzalo A,Vidal P,Minguez S,et al.Concentation of resveratrol in wines from catatonia.Spain.J wine Res,1995,6:213-218
[112]Mattivi F.Solid phase extraction of trans-resveratrol from wines for HPLC analysis.Z.Lebensm.Unters.Forsch,1993,196:522-525
[113]Mattivi E,Reniero EK,orhammner S.Isolation characterization and evolution in red wine vinifica -tion of resveratrol monomers.J.Agric.Food Chem,1995,43 1820-1823
[114]Mozzon M,Frega N,Pallotta U.Resveratrol content in some Tuscan wines.Ital.J.Food Chem,1996,2:145-152
[115]Soleas GJ,Golbderg DM,Diamand EP,et al.A derivatized gas chromatographic-mass spectrometric method for the analysis of both isomers of resveratrol in juice and wine.Amerian Journal of Enology Viticulture,1995,46:346-352
[116]Soleas GJ,Golbderg DM,Karumanchiri A,et al.Influences of viticultural and enological factors on changes in cis- and trans-resveratrol in commercial wines.J.Wine Res,1995,6:107-121
[117]Golbderg D,Karumanchiri A,Yan J,et al.Assay of resveratrol gluco-sides and isomers in wine by direct injection high performace liquid chromatography.J.Chromatogr.A,I995,705:89-95
[118]Goldberg DM,Tsang E,Karumanchiri A,et al.A method to assay the concentration of phenolic constituents of biological interest in wines.Anal.Chem,1996,68:168-1694
[119]Lamuela Raventos RM,Ronero Perez A1,Waterhouse AL,et al.Direct HPLC analysis of eis-and trans-resveratrol and piccid isomers in Spanish red Vitis vinifera wines.J.Agric.Food Chem,1995,43:281-283
[120]Me Murtrey D,Minn J,Pobanz K,et al.Analysis of wines for resveratrol using direct injection high -pressure liquid chromatography with electrochemical detection.J Agric.Food Chem,1994,42:2077-2080
[121]Pezet R,PontC,Cuenat P.Method to determine resveratrol and pterostilbene in grape berries and wines using high performance liquid chronatogrphpy and highly sensitive fluorimetric detection.J.Chromatogr.A,1994,663:191-197
[122]陈耀峰.植物细胞与组织培养.北京,中国农业出版社,2007
[123]陈学森,张艳敏,林群.中国银杏研究进展(二),银杏叶药用有效成分研究进展.山东农业大学学报(自然科学版),2000,31(1):101-104
[124]Bius B,Zenk MH.Exploitation of plant cells for the production of natural products.Biothehnology and Bioentineering.1982,24,1265-1974
[125]钟建江,吉田正史,吉田敏臣.生物学因子对紫苏悬浮细胞培养细胞生长和花色素形成的影响.生物工程学报,1995,11(2):153-156
[126]任志华,李玲.植物细胞培养技术提高次生代谢物产量的方法.热带植物科学,2003,32(3):64-67
[127]于树宏.利用细胞培养技术提高次生代谢物的产量.生物学通报,1998,33(7):40-42
[128]Sepehr M,Ghorbanli M.Effects of nutritional factors on the formation of Anthraquinones in callus cultures of Rheum ribes.Plant Cell,Tiessue and Organ Culture,2002,68:171-175
[129]周倩耘,丁家宜,刘峻等.植物技术对大量人参毛状根生长和皂甙含量的影响.植物资源与环境学报,2003,12(1):26-28
[130]张俊莲.当归愈伤组织产生的影响因素分析.甘肃农业科技,1995,(11):8-10.
[131]宁文,曹日强.硬紫草细胞悬浮培养和紫草宁及其衍生物的形成.生物工程学报,1994,10(1):76-80
[132]王小菁.我国光形态建成研究回顾.植物学通报,2003,20(4):407-415
[133]曾建国,侯团章.高效液相色谱法测定虎杖提取物中自藜芦醇的含量.中国中医药科技,2000,7(3):223-224
[134]周建军,张宏杰等.汉中地区虎杖中自藜芦醇苷及苷元含量的测定.中草药,2002,33(5):1352-1353
[135]于华忠,李国章等.虎杖自藜芦醇提取物的干燥方法研究.林产化工通讯,2005,39(1):12-14
[136]Makunga NP,Staden J,Cress WA.The effect of lighe and 2,4-D on anthocyanl preduction in Oxalis reclinata callus.Plant Growth Regulation,1997,23:153-158
[137]曹福祥.次生代谢及其产物生产技术.长沙:国防科技大学出版社,2003.
[138]狄云,蒋健箴,石正强.辣椒果实中的辣椒素类物质研究进展.食品科学,1999,6:30-32
139.黄建安,刘仲华.毛状根培养与植物次生代谢物的生产.微生物学杂志,200323(5):35-39
[140]张美萍,王义,孙春玉.西洋参愈伤组织悬浮培养物细胞分化与皂苷合成关系的研究.核农学报,2004,18(2):152-154
[141]Kutney JP,Samija MD,Hewitt GM,et al.Anti-inflammatory oleanane triterpenes from Tripterygium wilfordil cell suspension cultures by fungal elicitation.Plant Cell Rep,1993,12:356-359
[142]S ingh G,Gavrieli J,Oakey JS,et al.Interaction of methyl jas monate,wounding and fungal elicitation during sesquiterpene induction in Hyoscyamus muticus in root cultures.Plant Cell Rep,1998,17:391-395
[143]Liu C J,Heinstein P,Chen X Y.Expression Pattern of genes encoding farnesyl diphosphate(FPS)synthase and sesquiter pene cyclase in cottonsuspension-cultured cells treated with fugal elicitors.Mol Plant-Microbe interact,1999,12(12):1095-1104
[144]许建峰,苏志国,冯朴荪.高山红景天细胞悬浮培养中红景天甙生物合成代谢调控Ⅱ:真菌诱导物的影响.天然产物与开发,1998,10(3):6-11
[145]Dixon R A.The phytoalexin synthesis response:elicitation,signaling and control of host gene exression.Biol Rev,1986,61:239
[146]张长平,李春,元英进.真菌诱导子对悬浮培养南方红豆杉细胞次生代谢的影响.化工学报,2002,53(5):498-502
[147]刘长军,侯嵩生,李新明等.真菌诱导子对悬浮培养西洋参细胞的生理效应.武汉植物学研究,1996,14(3):240-246
[148]刘长军,侯嵩生.真菌诱导子对新疆紫草悬浮培养细胞的生长和紫草素合成的影响.植物生理学报,1998,24(1):6-10
[149]Eilert U.Elicitation:methodology and aspects of application.In:Constabel F and Vasil I.K.(eds).Cell Culture and SomaticCell Genetics of Plants,1987,4:153
[150]刘峻,丁家宜,周倩耘,等.真菌诱导子对人参毛状根皂苷生物合成和生长的影响.中国中药杂志,2004,29(4):302-305
[151]Brodelius P,Unk CF,Haner AA.Procedure for the determination of optimal chitosan contentions for elicitation of cultured plant cells.Phytochemistry,1989,28(1):2651-2654
[152]谢秋玲,郭勇.刺激剂(elicitor)在植物细胞培养生产中的应用.广西植物,1995,5,19(2):146-149
[153]B.B.布坎南,W.格鲁依森姆,R.L.琼斯.植物生物化学与分子生物学,科学出版社,2004,北京
[154]Rosena O,Staaij J,Bjom L.UV-B as an environmental factor inplant life:stress and regulation Tree,1997,12:22-28
[155]Schubbert T,Fischer R,Hain R,et al.An ozone-responsive region of therapevine resveratrol synthase promoter differs from the basal pathogen responesive sequence.Plant Mole Bio,1997,34(3):417-426
[156]Fritzemeier KH,Claus HR.Action of UV-C on stilbene formation in callus of Arachis hypogaea.Planta(Berl),1983,139(1):25-29
[157]Douillet Breuil AC,Jeandet P,Adrian M,et al.Changes in the phytoalexin content of various Vitis spp.in response to ultraviolet Celicitation.J Agric Food Chem,1999,47:4456-4461
[158]Cantos E,Espin JC,Franciso A,et al.Postharvest induction modeling method using UV irradiation pulses for obtaining resveratrol enriched table grapes:A new "functional"fruit.Joural of Agricultural and Food Chemistry,2001,49:5052-5058
[159]李景明,马丽艳等.葡萄采后紫外线(UV)处理对白藜芦醇的诱导作用.中外葡萄与葡萄酒,2004(4);16-19
[1]陈耀峰.植物细胞与组织培养.北京:中国农业出版社,2007
[2]M.K.拉兹丹.植物组织培养导论.北京:化学工业出版社,2006
[3]Burns J,Yokota T,Ashihara H,et al.Plant foods and herbal sources of resveratrol.J.Agric Food Chem,2002,50(11):3337-3340
[4]Kimura Y,Okuda H.Resveratrol isolated from Polygonum cuspidatum roots prevents tumor growth and metastasis to lung and tumor-induced neovascularisation in Lewiw lung arcinoma-bearing mice.J Nutr,2001,131:1844-1849
[5]曹庸,陈雪,唐永红等.虎杖愈伤组织的诱导及高产白藜芦醇材料的筛选.生命科学研究,200610(3):270-275
[6]曹庸,于华忠,张敏等.HPLC法测定虎杖白藜芦醇的含量及其稳定性研究.林学与工业,2004,24(2):61-64
[7]向海艳,周春山,钟世安等.虎杖中自藜芦醇的提取工艺.中南大学学报,2004,35(6):965-968
[8]许萍,张丕方.关于细胞脱分化的研究概况.植物学通报,1996,13(1):20-24
[9]杭珍,黄卓忠,江文.生姜组织培养快繁技术研究与应用.江苏农业科学,2006,5:125-127
[10]Chen JY,Chen BS.Tissue cultue of explants from Polygonum cuspidatum.Plant Physiology Communication,1988,(6):41
[11]陈惠,王文科,卢英梅等.南方红豆衫外植体来源与培养基成分对愈伤组织生长和紫杉醇的影响.中草药,2005,36(5):748.
[12]严海燕,曹日.紫草组织培养中细胞发育时期与紫草宁形成关系的研究.中草药,2001,32(03):264.
[13]石俊英,牟彩萍,向凤宁等.西洋参和胡萝卜体细胞融合培养杂种鉴定及愈伤组织中人参皂苷含量分析.山东中医药大学学报,2003,27(6):448.
[14]孙敏,曾建军.长春花毛状根培养及抗癌生物碱产生的研究.中国中药杂志,2005,30(10):741-743
[15]曹庸,张敏,于华忠等.气象因子和矿质元素对虎杖根茎白藜芦醇含量的影响.应用生态学报,2004,15(7):1143-1147
[16]Bryant JP,Chapin FS,Klein DR.Carbon/nutrient balance of boreal plants in relation to vertebrate herbivory.O ikos,1983,40:357-358
[17]Kong CH,Xu T,Hu F,et al.All elopathy under environmental stress and its induced mechanism.Acta Ecologica Sinica,2000,20:849-854
[18]曹福祥.次生代谢及其产物生产技术.长沙:国防科技大学出版社,2003
[19]欧菊泉,陈冒香,丁利华等.虎杖愈伤组织的诱导及其白藜芦醇形成初探.中南林学院学报,2006,26(3):24-27,50
[20]卢艳花.中药有效成分提取分离技术.北京:化学工业出版社,2005
[21]郭孝武.超声提取黄芩苷成分的实验研究.中国现代应用药学杂志,1999,16(3):18-20
[22]毕立君,李君.水芹中总黄酮类化合物最佳提取工艺研究.食品科学,1999,(12):35-37
[1]王小菁.我国光形态建成研究回顾.植物学通报,2003,20(4):407-415
[2]曾建国,侯团章.高效液相色谱法测定虎杖提取物中白藜芦醇的含量.中国中医药科技,2000,7(3):223-224
[3]周建军,张宏杰等.汉中地区虎杖中白藜芦醇苷及苷元含量的测定.中草药,2002,33(5):1352-1353
[4]于华忠,李国章等.虎杖白藜芦醇提取物的干燥方法研究.林产化工通讯,2005,39(1):12-14
[5]Makunga NP,Staden J,Cress WA.The effect of lighe and 2,4-D on anthocyanl preduction in Oxalis reclinata callus.Plant Growth Regulation,1997,23:153-158
[6]Ke-seng Zhao,Chunhua Jin.The mechanism of Polydatin in shock treatment.Clinical Hemorheology and Microcirculation,2003(29):211-217
[7]孙桂英,刘正坪.茄子愈伤组织诱导条件的初探.内蒙古农业大学学报:自然科学版,2004,25(2):66
[8]郭勇,崔堂兵,谢秀祯.植物细胞培养技术与应用.北京:化学工业出版社,2004.
[9]冷平生,王天华,苏淑钗等.银杏黄酮和内酯的季节变化.植物资源与环境学报,2001,10(3):15-18
[10]苏淑钗,王天华,蒋湘宁等.光强与光质对银杏苗木生理特性及黄酮内酯含量的影响.植物资源与环境学报,2002,11(1):1-4
[11]刘春朝,叶和春,王玉春等.适于青蒿芽生长和青蒿素积累的光、温和培养方式探讨.植物生理学报,1999,25(2):105
[12]叶和春,尹作鸿,李国风等.不同理化因子对新疆紫草愈伤组织生长及紫草宁衍生物合成的影响.植物学报,1991,22(12):927-929
[13]王洋,戴绍军,阎秀峰等.光照对喜树叶片次生代谢产物喜树碱的影响.生态学报,2004,24(6):1118-1122
[14]陈耀峰.植物细胞与组织培养.北京:中国农业出版社,2007
[1]吴奇君,梅兴国.果糖和前体物质对紫杉醇生物合成的影响.生命科学研究,2001,5(2):146-148
[2]顾世梁,朱庆森,杨建昌等.不同水稻材料籽粒灌浆特性的分析.作物学报,2001,24(1):7-14
[3]王敬文,薛应龙.植物苯丙氨酸裂解酶的研究Ⅱ:苯丙氨酸裂解酶在抗马铃薯晚疫病总的作用.植物生理学报,1982,8(1):35-43
[4]李合生.植物生理生化试验原理合技术.北京:高等教育出版社,2001
[5]邹绮.植物生理学实验指导.北京:中国农业出版社,2001
[6]王志琴,叶玉秀,杨建昌等.水稻灌浆期籽粒中蔗糖合成酶活性的变化与调节.作物学报,2004,30(7):634-643
[7]张祖建,王志琴,朱庆森等.水稻胚乳细胞增殖动态分析及其与籽粒生长的关系.作物学报,1998,24(3):257-264
[8]陈永勤,吴蕴祺,胡秋等.苯丙氨酸、蔗糖和甘露醇对杂种红豆杉细胞的生长及形成紫杉醇、巴卡亭Ⅲ和102去乙酰基巴卡亭Ⅲ的影响.药学学报,1998.33(2):132-137
[9]曾鑫年,谢建军.前体物质对毛鱼藤离体合成鱼藤酮的影响.农业生物技术学报,2001,2:149-151
[10]欧阳光察,薛应龙.植物苯丙烷类代谢的生理意义及其调控.植物生理学通讯,1988,24(3):9-16
[11]马俊彦,杨汝德,敖利刚.植物苯丙氨酸解氨酶的生物学研究进展.现代食品科,2007,23(7):71-74,91
[12]臧小云,刘丽萍,蔡庆生等.不同供氮水平对荞麦茎叶中黄酮含量的影响.南京农业大学学报,2006,29(3):28-32
[13]项雷文,郭丽梅.前体物质对粉葛细胞生长及次生代谢的影响.福建师大福清分校学报,2004,2:50-53
[14]王燕,刘卫红,杜何为等.底物、末端产物对离体银杏叶苯丙氨酸解氨酶活性的影响.果树学报,2004,21(5):443-446
[15]刘世琦,刑禹贤.三种瓜类子房初期可溶性糖、Pr及POD活动的变化.园艺学报,2002,29(5):454-456
[16]冯玲玲,周诗毅,杨春艳等.黑暗和光照对丹参培养细胞生长和生理生化特性的影响.生态学杂志,2005,22(2):24-26
[17]陈洪国.桂花开花进程中花瓣色素、可溶性糖和蛋白质含量的变化.武汉植物研究,2006,24(3):231-234
[1]Kutehan TM.Strictosidine from alkaloid to enzyme to gene.Phytochenr,1993,32:493-506
[2]Nef C,Rio B,Chrestin H.Induction catharanthine synthesis and stimulation of major indol ealkaloids Production in Catharanhtus roseus cells under non-growth altering treatment With Pythium vexans extraets.Plant Cell Rep,1991,10:26-29
[3]张中义,冷怀琼,张志铭等.植物病原真菌学.成都:四川科学技术出版社,1991
[4]欧阳光察.植物生理学实验指导.上海:上海科学技术出版社,1985
[5]Zhao HL,Yu RM.Progress in the application of elicitors in the plant cell cultures.Journal of shenyang pharmaceutical university,2000,17(2):152-156
[6]关军峰,马智宏,陈星.肌醇磷脂信息传递系统在苹果花粉萌发和花粉管生长中的作用.果树科学,1999,16(4):250-254
[7]薛应龙.植物生理学实验手册.上海:上海科学技术出版社,1985
[8]熊庆娥.植物生理学实验教程.成都:四川科学技术出版社,2003
[9]中国科学院上海植物生理研究所,上海市植物生理学会.现代植物生理学实验指南.北京:科学出版社,1999
[10]黄海涛,王丹,李卫锋等.盐胁迫和辐射复合处理对东方百合不定芽增殖及POD同工酶的影响西北农业学报,2008,17(2):2502253
[11]]吉前华,梁广坚,郭雁君等.德庆贡柑果实品质相关的同工酶分析.四川农业大学学报,2007,25 (4):425-429
[12]B.B.布坎南,W.格鲁依森姆,R.L.琼斯.植物生物化学与分子生物学.北京:科学出版社,2004
[13]Kutney JP,Samija MD,Hewitt GM,et al.Anti-inflammatory oleanane triterpenes from Tripterygium wilfordil cell suspension cultures by fungal elicitation.Plant Cell Rep,1993,12:356-359
[14]Nef C,Trouslot MF,Trouslot P,et al.Long-term effect of a pythium elicitor treatment on the growth and alkaloid production of Catharanthus roseus cell suspensions.Planta Med,1994,60:149-152
[15]Singh G,Gavrieli J,Oakey JS,et al.Interaction of methyl jas monate,wounding and fungal elicitation during sesquiterpene induction in Hyoscyamus muticus in root cultures.Plant Cell Rep,1998,17:391-395
[16]刘长军,侯嵩生,李新明,等.真菌诱导子对悬浮培养西洋参细胞的生理效应.武汉植物学研究,1996,14(3):240-246
[17]Eilert U.Elicitation:methodology and aspects of application.In:Constabel F and Vasil I.K.(eds).Cell Culture and Somatic Cell Genetics of Plants,1987,4:153
[18]Brodelius,Pedensen H.Increasing secondary metaboltte production in plant cell culture by red krect -ing transport-e.g,by cell petmeabilization,the use of phase partitioning or eliertor compounds,and gene -tic engineerin a revuew.Trend in Biotech,1993,11:35
[19]周敏.内生真菌及其诱导子与长春花悬浮细胞生物碱合成代谢相关性研究(学位论文).湖南农业大学,2005
[20]Dixon R A.Activition struction and orgnization of genes involved in microbial defense plants.Adv in Gene,1990,28:165-217.
[21]马俊彦,杨汝德,敖利刚.植物苯丙氨酸解氨酶的生物学研究进展.现代食品科,2007,23(7):71-74,91
[22]Yamada T,An C,Ichinose Y.Organization of the genes encoding chalcone synthase in pisum sativum Plant Mol Biol,1993,21(5):789-803
[23]李家儒,刘曼西,曹孟德,等.桔青霉诱导子对红豆杉培养细胞中紫杉醇生物合成的影响.植物研究,1998,18(1):78-82
[24]许建峰,苏志国,冯朴荪.高山红景天细胞悬浮培养中红景天甙生物合成代谢调控Ⅱ:真菌诱导物的影响[J].天然产物与开发,1998,10(3):6-11
[25]Lebrun Garcia A,Bourque S,Binet MN,et al.Involvement of plasma membrane proteins in plant de -fense responses.Analysis of the cryptogein signaltransduction in tobacco.Biochimie,1999:81(6):663-668
[26]Hahlbrock K,D Scheel,E Logemann,et al.Oligopeptide Elicitor-Mediated Defense Gene Activation in Cultured Parsley Cells.Proceedings of the National Academy of Sciences,1995,92(10):4150-4157
[27]Thompson CB.Apoptosis in pathogenesis and treatment of discase.Science,1995:267-285
[28]李春,元英进,马忠海等.寡聚糖诱导悬浮培养红豆杉细胞生理态势的改变.化工学报,2002,53(11):1133-1138
[29]李靖,利容千,袁文静。黄瓜感染霜霉病菌叶片中一些酶活性的变化.植物病理学报,1991,21(4):277-283
[30]党尉,尉亚辉,曹辉.白藜芦醇合酶的研究进展.植物学通报,2003,20(2):152-159
[31]刘璞,陈珈.植物激素脱落酸的信号转导.植物生理学通讯,1996,36(2):165-169
[1]朱立贤,金征宇,虎杖中白藜芦醇提取分离工艺的研究,安徽农业科学,2005,33(1):77-78
[2]余迪求,岑川,杨明兰等.水杨酸诱导烟草培养细胞的脂质过氧化和保护基因表达的研究.植物学报,1999,41(9):977-982
[3]兰文智,余龙江,吴元喜.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.西北植物学报,2002,22(1):78-83
[4]陈颖.银杏组织、细胞培养及其生产黄酮的代谢调控研究(博士学位论文).南京林业大学,2005
[5]李晓东,郑先波,闫树堂等.水杨酸和紫外线对诱导采后葡萄果皮内白藜芦醇合成作用研究.果树学报,2007,24(1):30-33
[6]彭金英,黄勇平.植物防御反应的两种信号转导途径及其相互作用。植物生理与分子生物学学报,2005,31(4):347-353。
[7]毛爱军,王永健,冯兰香等.水杨酸诱导辣椒抗疫病生化机制的研究。中国农学通报,2005,21(5):219-222。
[8]刘清华,钟章成.紫外线-B辐射对银杏活性氧代谢及膜系统的影响.西华师范大学学报(自然科学版),2007.28(2):148-152
[9]吴杏春,林文雄,郭玉春等.植物对UV-B辐射增强响应的研究进展.中国生态农业学报,2002,9(3):52-55
[10]姜发军.黑曲霉提取物与水杨酸对长春花悬浮细胞生长及生物碱代谢作用的研究(硕士学位论文).湖南农业大学,2004
[11]赵平,曾小平,孙谷畴.陆生植物对UV-B辐射增量响应研究进展.应用与环境生物学报,2004,10(1):122-127
[12]盛桂莲,李文新,李睿等.植物叶片中防御性化合物的紫外线诱导研究.武汉植物学研究,2000,18(1):67-69
[13]B.B.布坎南,W.格鲁依森姆,R.L.琼斯.植物生物化学与分子生物学.北京:科学出版社,2004
[14]王冬良,陈友根,朱世东等植物抗病中的信号分子研究.中国农学通报,2005,21(12):77-82
[2]毛永芬,窦夏密.虎杖的性能特点及临床应用.河北中医,2003,25(8):634-635
[3]Xiao K,Xun LJ,Xu YM,et al.Constitiuents from Polygonum cuspidatum.Chemical Pharmaceutical Bullitin,2002,50(5):605-608
[4]薛岚.中药虎杖的药理研究进展.中国中药杂志,2000,25(11):651-653
[5]楼月丽.虎杖的临床应用.湖南中医药导报,1998,5,4(5):11-12
[6]Chu QC,Peng YY,Ye JN,et al.Determination of active ingredients of Polygonum cuspidatum sied.et z.by cappillary electrophoresis with electrochemical datection.Electroanalysis,2004,16(17):1434-1438
[7]Hegde VR,Pu H,Patel M et al.Two new bacterial DNA primase inhibitors from the plant Polygonum cuspiddatum.Bioorganic and Medical Chemistry Letter,2004,14:2275-2277
[8]Kima YS,Hwang CS,Shin DH.Volatile constituents from the leaves of Polygonum cuspiddatum sled et z.and their anti-bacterial activies.Food Microbiology,2005,22:139-144
[9]Kima Y,Okuda H.Resveratrol isolated Polygonum cuspiddatum root prevents tumor growth and metastasis to lung and tumor-induced neovasculaeization in Lewis lung carinoma-bearing mice.European Journal of Nutrition,2001,131(6):1844-1849
[10]Bradamante S,Barenghi L,Piccinini F,et al.Resveratrol provides late-phase cardioprotection by mean of a nitric oxide and adenosine mediated mechanism.European Journal of Pharmacology,2003,465(1-2):115-123
[11]李银春,赵振成.虎杖.特种经济动植物,2004,(7):25
[12]肖凯,宣利江,徐亚明等.虎杖的化学成分研究,中国药学杂志,2003,138(1):12-14
[13]吴兆祥,徐同印.虎杖栽培管理.时珍国医国药,1999,10(3):1-3
[14]张喜云.虎杖的化学成分药理作用与提取分离.天津药学,1998,8,11(3):13-14
[15]Naczk M,Shahidi F.Extraction and analysis of phenolics in food.Journal of Chromatography A,2004,1054:95-111
[16]肖凯,宣利江,徐亚明等.虎杖的水溶性成分研究.中草药,2003,34(6):496-498
[17]Park CS,Lee YC,Kim JD,et al.Inhibitory effects of Polygonum cuspiddatum water extract(PCWE)AANDITS component rasveratrol on acyl-coenzyme A-cholesterol acyltransferase activity for cholesteryl ester sythesis in HepG2 cells.Vascular Pharmacology,2004,40:279-284
[18]Skerget M,Kotnik P,Hadolin M,et al.Phenols,proanthocyanidins,flaconed andflavonols in some plant materials and their antioxidant activities.Food Chemistry,89:191-198
[19]Karakaya S,Sedef EL.Quercetin,luteolin,apigenin and kaempferol contents of some foods.Food Chemistry,1999,66:289-292
[20]Kuzentsova Z.P.Study of phenolic compounds from Japanese Knotweed vestsiAkad navuk BSS.Ser biyal navuk,1979,(5):29-32
[21]王振中,张民仕.六种蓼科植物中大黄素含量比较分析.江苏药学与临床研究,1996,4(4):29-30
[22]Yim TK,Wu WK,Mak D.Myocardial protective effect of an anthraquinone contatining extract of Polygonum multiflorum..Planta Medica,1998,64:607.
[23]肖凯.蓼属中药何首乌、虎杖、拳参水溶性成分结构与生物活性的研究:博士学位论文.上海:中国科学院上海药物研究所,2000
[24]欧阳长庚.虎杖化学成分.中草药,1987,18(8):45
[25]汪篪。虎杖中游离蒽醌衍生物的提取及利用.贵州师范大学学报(自然科学版).1998,16(2):47-49
[26]Maracami T,Tanaka K.Wasser-loslich polysucharide aus den warzeln VonPolygonum Cuspidatum Zucc,Chem Pharm Bull,1973,21(7):1506
[27].Seichi S,Kanihiro T,Ikao K.A filter for oxidation of carbon monoxid.Jpn kokaitokkyo koko,1977,12:77
[28]Jang M,Cai L,Udeani GO,et al.Cancer chemo-preventive activity of resveratrol,a natural p roduct derived from grapes.Science,1997,275-218-220
[29]王磊,黄澜,张勉等.虎杖商品药材中白藜芦醇的含量测定.中国中药杂志,2002,27(5):344-347
[30]曹庸,于华忠,李国章等.虎杖不同季节、不同组织部位白藜芦醇含量动态变化研究.中国药学杂志,2004,39(5):337-339
[31]夏海武,吕柳新.虎杖不同部位白藜芦醇含量的分析.植物资源与环境学报,2005,14(3):55-56
[32]于树宏,查建蓬,詹文红等.虎杖野生植株及组织培养物中白藜芦醇和虎杖苷含量的比较.中国中药杂志,2006,31(8):1637-641
[33]梁陈方,李锦炎.不同采收期虎杖中自藜芦醇苷含量比较.广西医学,2006,28(9):1428-1429
[34]王玉玺.不同采收时间虎杖药材中白藜芦醇苷含量差异研究.时珍国医国药,2004,15(2):82-83
[35]谭智渊,周国海,刘盛开等.不同生境条件对虎杖白藜芦醇含量的影响.经济林究,2006,24(1):64-66
[36]曹庸,张敏,于华忠等.气象因子和矿质元素对虎杖根茎白藜芦醇含量的影响.应用生态学报,2004,15(7):1143-1147
[37]陈雷,杨福泉等.虎杖中白藜芦醇和白藜芦醇苷的高速逆流色谱分离提纯及其分析.分析测试学报,2000,7,19(4):60-62
[38]江海燕,朱华等.炮制对虎杖中白藜芦醇的苷和大黄素的影响.中草药,2003,5,35(5):412-415
[39]江海燕,卢忠朋等.HPLC法测定不同虎杖炮制品中白藜芦醇苷的含量.中草药,2004(5):523-524
[40]张敏,曹庸.虎杖白藜芦醇提取工艺的初步研究.林产化工通讯,2004,38(3):6-9
[41]侯团章,曾建国,梁桦等.一种从虎杖中制备白藜芦醇的方法.中国专利,CN 1341587A,2002-3-27
[42]邹贤德,舒鑫.提高中药虎杖中白黎芦醇含量的方法.中国专利,CN1385535A,2002-12-18
[43]向海艳,周春山.酶法提取虎杖中自藜芦醇新工艺研究.林产化学与工业,2004,12,24(4):77-80
[44]欧菊泉,陈冒香,丁利华等.虎杖愈伤组织的诱导及其白藜芦醇形成初探.中南林学院学报,2006,26(3):24-27,50
[45]曹庸,陈雪,唐永红等.虎杖愈伤组织的诱导及高产白藜芦醇材料的筛选.生命科学研究,200610(3):270-275
[46]于树宏,赵丽丽,王伟等.影响虎杖毛状根高频诱导的因素探讨.西北植物学报,2005,25(9):1740-1746
[47]唐永红,曹庸,黄早成等.真菌B-39与虎杖悬浮细胞的共培养.微生物学通报,2007,34(3):545-548
[48]曹庸,于华忠,张敏等.HPLC法测定虎杖白藜芦醇的含量及其稳定性研究.林学与工业,2004,24(2):61-64
[49]Zaid A.In vitro browning of tissues and media with special emphasis to tepalmcultures a review.acta hort 1987,212:561-566
[50]吉林,文多.白黎芦醇的开发与应用.精细化工原料及中间体,2003,10:19-22
[51]舒友琴,陈敏.白藜芦醇和白藜芦醇苷的研究进展.郑州牧业工程高等专科学校学报,2003,23(4):245-247
[52]王世盛,赵伟杰,刘志广.天然多羟基芪化合物的生物活性.国外医药.植物药分册,2001,16:9-11
[53]郝春燕,苏海翔等.白藜芦醇通过Fas依赖途径诱导K562细胞凋亡.实用癌症杂志,2004,11,19(6):22-25
[54]李靖,程桂芳等.Gn类化合物对小鼠腹腔巨噬细胞产生肿瘤坏死因子α的影响.药学学报,2000,35(5):335-338
[55]Bruce German J.The health benefits of wine.Annual Revi Nutr,2000,(20):561-593
[56]Keseng Z,Chunhua J.The mechanism of Polydatin in shock treatment.Clinical Hemorheology and Microcirculation,2003(29):211-217
[57]周建军.虎杖中二苯乙烯类化合物药理作用研究进展.西北药学报,2000:15(2):86-88
[58]王劲松.葡萄与葡萄酒中白藜芦醇的含量及其影响因素.宁夏农林科技,2003(6):26
[59]堵年生,屈兰等.新疆葡萄籽化学成分的研究.新疆医科大学学报,2003(6):121-124
[60]李记明,赵光鳌等.干红葡萄酒中白藜芦醇的含量与分布.葡萄栽培与酿酒,2004(4):8-10,14
[61]Sukala K,Katta V,Ku M,.Estimation of trans-Resveratrol in Herbal Extracts and Dosage Forms by High-Performance Thin-Layer Chromatography.Chem.Pharm.Bull,2005,53(6):691-693
[62]Liu Z,Li W.Effects of trans-resveratrol from polygonum cuspidatum on bone loss using the ovariectomized rat model.J Med Food,2005 spring,8(1):9-14
[63]薛岚.中药虎杖的药理研究进展.中国中药杂志,2000(11):651-653
[64]骆苏芳,金行中等.虎杖有效成分3,4',5-三羟基芪-3-β-D-葡萄糖苷的研究.中国药理学与毒理学杂志,1999,213(1):25-26
[65]Pont V,Peet V.Relation between the chemicalst ructure and the biolgical activity of hydroxystilbenes against Botrytis cinerea.J.Phytopathology,1990,130:1-8
[66]党尉,尉亚辉,曹辉.白藜芦醇合酶的研究进展.植物学通报,2003,20(2):152-159
[67]Schroder G,Schroder J.A single change to flristidine to glutamine alters the substratepre fence of a stilben synthase.J Biochem Chem,1992,267(29):20558-20560
[68]Schwekendiek A,Pfeffer G,Kindl H,Pine stilbene synthase cDNA,a tool for probing environmental stress.FEBS,1992,301(1):41-44
[69]Hiroyuki Ohashi,Tsutomu Takayanagi,Tohru Okuda,et al.Structure of grapevine stilbene synthase genes inducing different amounts of resveratrol under.Elicitor treatment,Amj E nol Vitic,2001,52(3):254
[70]田雪梅,张展霞.白藜芦醇抗肿瘤作用的体外实验研究.中山大学学报(自然科学版),2000,39(6):64-67
[71]Kodan A,Kuroda H,Sakai F.A Stilbene synthasw from Japanese red pine(Pinus densiflora):Implications for phytoalexin accumulation and down-regulatiun of flavonid biosythesis.PNAS,2002,99(5):3335-3339
[72]Fliegmann J,Schroder G,Schanz S,et al.Molecular analysis of chalcone and dihydropinosyivin synthase from Scots pine(Pinus sylvestris) and differential regulationof these and related enzyme activities in stressed plants.Plant Mol Biol,1992,18:489-503
[73]Yamaguchi T,Kurosaki F,Suh D Y,et al.Cross-reactionof thal cone synthase and stilbene synthase over expressed in Escherichia coli.FEBS,1999,460:457-461
[74]Tropf S,Kareher B,Schroder G,et al.Reaction mechanisms of homodimeric plant polyketide synthases(stilbene and chalcone synthase).J Biochem Chem,1995,270(14):7922-7937
[75]Schroder J,Lanz T,Schroder G.Genes for biosynthasis of stilbene typephytoalexins.UCLA.Aymp M ole Cell Biol,1991,34(3):417-426
[76]Schoeppner A.Purification and properties of stibenne synthase from induced cell suspensionc ultures of peanut.Biol Chem,1984,259(11):68 06-6811
[77]Morita H,N oguchi H,Schroder J,et al.Novel polyketides synthesized with a higher plant stilbene synthase.Eur J Biochem,2001,268:3759-3766
[78]Lanz T,Tropf S,Mamer FJ,et al.The role of cysteines in polyketide synthase.J Bioehem Chem,1991,266(15):9971-9976
[79]Lanz T,Susanne T.The role eycteinesin polyketide synthse:site-directed mutagenesis of resveratrol and chalone synthase,two key enzymes in diferent plant specific pathmays.Biol Chem,1991,266(1):9971-9 976
[80]Schroder G,Schroder J.A single change of histidine to glutamine alters the substrate preference of a stilbene synthase.J Biochem Chem,1992,267(29):20558-20560
[81]Hain G,Reif H,Krause E,et al.Disease resistance results from foreign phytoalexin expression in a novel plant.Nature,1993,361:153-156
[82]Schroder G,BrownJ W,Schroder J.Molecular analysisof resveratrol synthase:cDNA,genomic clones and relationship with chaleone synthase.Eur J Biochem,1988,172(1):161-169
[83]Hiroyuki Ohashi,Tsutomu Takayanagi,Tohru Okuda,et al.Structureof grapevine stilbene synthase gene sinducing different amountsof resveratrol under elicitor treatment.Am J Enol Vitic,2001,52(3):284
[84]Chung I M,Park M R,Rehman S,et al.Tissue specific and inducible expression of resveratrol synthase gene in peanut plants.Mol Cells,2001,2(3):353-359
[85]HipskindJ D,Paiva N.Constitutive accumulation of a resveratrol glucoside in transgenic alfalfa increases resistance to Phoma medicaginis.Molecular Plant Microbe Interactions,2000,13:551-562
[86]Suh DY,Kagami J,Fukuma k,et al.Chalcone and stilbene synthases expressed in eucaryotes exhibit reduced cross-reactivity in vitro.Chem Pharm Bull,2000,48:1051-1054
[87]Liswidowati ME,Hohmann F.Induction of stibene synthade by Botrytis cinerea in cultured grapevine cells.Planta,1991,183(2):307-314
[88]Schoppner A,Kindl H.Stilbene synthase(Pinosylvine synthase) and its induction by ultraviolet light.FEBS,1979,108(2):349-352
[89]Liswidowati,Melchior F,Hohmann F,et al.Induction of stilbene synthase by Botrytis cinerea in cultured grapevine cells.Plant,1991,183:307-314
[90]Gehlert R,Schoppner A,Kindl H.Stilbene synthasefrom seedingsof Pinus sylvestris purification and induction in response to fungal infection.Mol Plant-Microbe Interactions,1990,3(6):444-449
[91]Aavo Aaviksaar,Mati Haga.Hydroxy stilbenes in the root of Rheum rhaponticum.Proc.Estonian Acad.Sci.Chem,2003,52,3:99-107
[92]Zhi Hua Zhou,Makoto Miwa.Patch establishment and development of a clonal plant,Polygonum cuspidatum,,on Mount Fuji.Molecular Ecolugy,2003(12):1361-1373
[93]汪冬庚,刘文英等.HPLC法测定虎杖提取物中白藜芦醇和大黄素的含量.中草药,2004,(10):1126-1128
[94]俸灵林,郑昕等.RP-HPLC法同时测定虎杖中自藜芦醇和白藜芦醇苷的含量.天然产物研究与开发,2004,16(6):534-538
[95]卓广澜,沈振陆,姜玄珍.天然产物(E)-白藜芦醇的全合成.中国药物化学杂志,2002,,12(3):152-154
[96]王尊元,马臻,李强等.白黎芦醇的合成.中国医药工业杂志,2003,34(9):428-429
[97]李晓光,王三永,李春荣等.白黎芦醇的合成研究.中国食品添加剂,2002,5:25-27
[98]赵霞,陆阳,陈泽乃.白藜芦醇的化学药理研究进展.中草药,1998,29(12):837-839
[99]戴群,赵光鳌.HPLC测定葡萄中活性物质一白藜芦醇的含量.工业微生物,1999,29(3):22-23
[100]韩雅珊,陈雷,戴蕴青.高效液相色谱法测定葡萄酒中的白藜芦醇色谱,1999,17(4):366-368
[101]吴叶,程宁,洪筱坤.HPLC法测定清胆胶囊中白藜芦醇、陈皮甙的含量.中成药,1999,21(5):226-228
[102]Jeandet P,Bessis R,Maume BF,et al.Analysis of resveratrol in Burgundy wines.J Wine Res,1993,4:79-85
[103]Jeandet P,Bessis R,Sbaghi M,et al.Resveratrol content of wines of different ages:relation ship with fungal disease pressure in the vineyard.Am.J.Enol.Vitie,1995,46:1-4
[104]Jeandet P,Bessis R,Maume BF,et al.Effect of enological practices on the resveratrolisomer content of wine.J Agric Food Chem,1995,43316-319
[105]Jeandet P,Breuil AC,Adrian M,et al.HPLC analysis of grapevine phytoalexins cou-pling todiode array detection and fluorometry.Anal.Chem,1997,69:5172-5177
[106]Goldberg DM,Yan J,Diamandis EP,et al.Direct injeeion gas chromatographic-mass spectrometric assay for bans-resveratrol.Anal.Chem,1994,66:3959-3963
[107]Goldberg DM,Karumanchiri A,Yan J,et al.Direct gas chromatographic-mass spectrometric method to assay cisresveratrol in wines:preliminary survey of its con-centration in commercial wines.J.Agric.Food chem,1995,43:1245-1250
[108]Golbderg DM,Yan J,Diamandis EP,et al.A global survey of trans-resveratrol conce-mrations in commercial wines.Am.J.Enol.Vitic,1995,46:159-165
[109]Goldberg D,Yan J,Karumanchiri A,et al.Regional differences in resveratrol isomer concentrations of wines from various cultivars.J.Wine Res,1996,7:13-24
[110]Gonzalo A,Vidal P,Minguez S,et al.Concentation of resveratrol in wines from catatonia.Spain.J wine Res,1995,6:213-218
[112]Mattivi F.Solid phase extraction of trans-resveratrol from wines for HPLC analysis.Z.Lebensm.Unters.Forsch,1993,196:522-525
[113]Mattivi E,Reniero EK,orhammner S.Isolation characterization and evolution in red wine vinifica -tion of resveratrol monomers.J.Agric.Food Chem,1995,43 1820-1823
[114]Mozzon M,Frega N,Pallotta U.Resveratrol content in some Tuscan wines.Ital.J.Food Chem,1996,2:145-152
[115]Soleas GJ,Golbderg DM,Diamand EP,et al.A derivatized gas chromatographic-mass spectrometric method for the analysis of both isomers of resveratrol in juice and wine.Amerian Journal of Enology Viticulture,1995,46:346-352
[116]Soleas GJ,Golbderg DM,Karumanchiri A,et al.Influences of viticultural and enological factors on changes in cis- and trans-resveratrol in commercial wines.J.Wine Res,1995,6:107-121
[117]Golbderg D,Karumanchiri A,Yan J,et al.Assay of resveratrol gluco-sides and isomers in wine by direct injection high performace liquid chromatography.J.Chromatogr.A,I995,705:89-95
[118]Goldberg DM,Tsang E,Karumanchiri A,et al.A method to assay the concentration of phenolic constituents of biological interest in wines.Anal.Chem,1996,68:168-1694
[119]Lamuela Raventos RM,Ronero Perez A1,Waterhouse AL,et al.Direct HPLC analysis of eis-and trans-resveratrol and piccid isomers in Spanish red Vitis vinifera wines.J.Agric.Food Chem,1995,43:281-283
[120]Me Murtrey D,Minn J,Pobanz K,et al.Analysis of wines for resveratrol using direct injection high -pressure liquid chromatography with electrochemical detection.J Agric.Food Chem,1994,42:2077-2080
[121]Pezet R,PontC,Cuenat P.Method to determine resveratrol and pterostilbene in grape berries and wines using high performance liquid chronatogrphpy and highly sensitive fluorimetric detection.J.Chromatogr.A,1994,663:191-197
[122]陈耀峰.植物细胞与组织培养.北京,中国农业出版社,2007
[123]陈学森,张艳敏,林群.中国银杏研究进展(二),银杏叶药用有效成分研究进展.山东农业大学学报(自然科学版),2000,31(1):101-104
[124]Bius B,Zenk MH.Exploitation of plant cells for the production of natural products.Biothehnology and Bioentineering.1982,24,1265-1974
[125]钟建江,吉田正史,吉田敏臣.生物学因子对紫苏悬浮细胞培养细胞生长和花色素形成的影响.生物工程学报,1995,11(2):153-156
[126]任志华,李玲.植物细胞培养技术提高次生代谢物产量的方法.热带植物科学,2003,32(3):64-67
[127]于树宏.利用细胞培养技术提高次生代谢物的产量.生物学通报,1998,33(7):40-42
[128]Sepehr M,Ghorbanli M.Effects of nutritional factors on the formation of Anthraquinones in callus cultures of Rheum ribes.Plant Cell,Tiessue and Organ Culture,2002,68:171-175
[129]周倩耘,丁家宜,刘峻等.植物技术对大量人参毛状根生长和皂甙含量的影响.植物资源与环境学报,2003,12(1):26-28
[130]张俊莲.当归愈伤组织产生的影响因素分析.甘肃农业科技,1995,(11):8-10.
[131]宁文,曹日强.硬紫草细胞悬浮培养和紫草宁及其衍生物的形成.生物工程学报,1994,10(1):76-80
[132]王小菁.我国光形态建成研究回顾.植物学通报,2003,20(4):407-415
[133]曾建国,侯团章.高效液相色谱法测定虎杖提取物中自藜芦醇的含量.中国中医药科技,2000,7(3):223-224
[134]周建军,张宏杰等.汉中地区虎杖中自藜芦醇苷及苷元含量的测定.中草药,2002,33(5):1352-1353
[135]于华忠,李国章等.虎杖自藜芦醇提取物的干燥方法研究.林产化工通讯,2005,39(1):12-14
[136]Makunga NP,Staden J,Cress WA.The effect of lighe and 2,4-D on anthocyanl preduction in Oxalis reclinata callus.Plant Growth Regulation,1997,23:153-158
[137]曹福祥.次生代谢及其产物生产技术.长沙:国防科技大学出版社,2003.
[138]狄云,蒋健箴,石正强.辣椒果实中的辣椒素类物质研究进展.食品科学,1999,6:30-32
139.黄建安,刘仲华.毛状根培养与植物次生代谢物的生产.微生物学杂志,200323(5):35-39
[140]张美萍,王义,孙春玉.西洋参愈伤组织悬浮培养物细胞分化与皂苷合成关系的研究.核农学报,2004,18(2):152-154
[141]Kutney JP,Samija MD,Hewitt GM,et al.Anti-inflammatory oleanane triterpenes from Tripterygium wilfordil cell suspension cultures by fungal elicitation.Plant Cell Rep,1993,12:356-359
[142]S ingh G,Gavrieli J,Oakey JS,et al.Interaction of methyl jas monate,wounding and fungal elicitation during sesquiterpene induction in Hyoscyamus muticus in root cultures.Plant Cell Rep,1998,17:391-395
[143]Liu C J,Heinstein P,Chen X Y.Expression Pattern of genes encoding farnesyl diphosphate(FPS)synthase and sesquiter pene cyclase in cottonsuspension-cultured cells treated with fugal elicitors.Mol Plant-Microbe interact,1999,12(12):1095-1104
[144]许建峰,苏志国,冯朴荪.高山红景天细胞悬浮培养中红景天甙生物合成代谢调控Ⅱ:真菌诱导物的影响.天然产物与开发,1998,10(3):6-11
[145]Dixon R A.The phytoalexin synthesis response:elicitation,signaling and control of host gene exression.Biol Rev,1986,61:239
[146]张长平,李春,元英进.真菌诱导子对悬浮培养南方红豆杉细胞次生代谢的影响.化工学报,2002,53(5):498-502
[147]刘长军,侯嵩生,李新明等.真菌诱导子对悬浮培养西洋参细胞的生理效应.武汉植物学研究,1996,14(3):240-246
[148]刘长军,侯嵩生.真菌诱导子对新疆紫草悬浮培养细胞的生长和紫草素合成的影响.植物生理学报,1998,24(1):6-10
[149]Eilert U.Elicitation:methodology and aspects of application.In:Constabel F and Vasil I.K.(eds).Cell Culture and SomaticCell Genetics of Plants,1987,4:153
[150]刘峻,丁家宜,周倩耘,等.真菌诱导子对人参毛状根皂苷生物合成和生长的影响.中国中药杂志,2004,29(4):302-305
[151]Brodelius P,Unk CF,Haner AA.Procedure for the determination of optimal chitosan contentions for elicitation of cultured plant cells.Phytochemistry,1989,28(1):2651-2654
[152]谢秋玲,郭勇.刺激剂(elicitor)在植物细胞培养生产中的应用.广西植物,1995,5,19(2):146-149
[153]B.B.布坎南,W.格鲁依森姆,R.L.琼斯.植物生物化学与分子生物学,科学出版社,2004,北京
[154]Rosena O,Staaij J,Bjom L.UV-B as an environmental factor inplant life:stress and regulation Tree,1997,12:22-28
[155]Schubbert T,Fischer R,Hain R,et al.An ozone-responsive region of therapevine resveratrol synthase promoter differs from the basal pathogen responesive sequence.Plant Mole Bio,1997,34(3):417-426
[156]Fritzemeier KH,Claus HR.Action of UV-C on stilbene formation in callus of Arachis hypogaea.Planta(Berl),1983,139(1):25-29
[157]Douillet Breuil AC,Jeandet P,Adrian M,et al.Changes in the phytoalexin content of various Vitis spp.in response to ultraviolet Celicitation.J Agric Food Chem,1999,47:4456-4461
[158]Cantos E,Espin JC,Franciso A,et al.Postharvest induction modeling method using UV irradiation pulses for obtaining resveratrol enriched table grapes:A new "functional"fruit.Joural of Agricultural and Food Chemistry,2001,49:5052-5058
[159]李景明,马丽艳等.葡萄采后紫外线(UV)处理对白藜芦醇的诱导作用.中外葡萄与葡萄酒,2004(4);16-19
[1]陈耀峰.植物细胞与组织培养.北京:中国农业出版社,2007
[2]M.K.拉兹丹.植物组织培养导论.北京:化学工业出版社,2006
[3]Burns J,Yokota T,Ashihara H,et al.Plant foods and herbal sources of resveratrol.J.Agric Food Chem,2002,50(11):3337-3340
[4]Kimura Y,Okuda H.Resveratrol isolated from Polygonum cuspidatum roots prevents tumor growth and metastasis to lung and tumor-induced neovascularisation in Lewiw lung arcinoma-bearing mice.J Nutr,2001,131:1844-1849
[5]曹庸,陈雪,唐永红等.虎杖愈伤组织的诱导及高产白藜芦醇材料的筛选.生命科学研究,200610(3):270-275
[6]曹庸,于华忠,张敏等.HPLC法测定虎杖白藜芦醇的含量及其稳定性研究.林学与工业,2004,24(2):61-64
[7]向海艳,周春山,钟世安等.虎杖中自藜芦醇的提取工艺.中南大学学报,2004,35(6):965-968
[8]许萍,张丕方.关于细胞脱分化的研究概况.植物学通报,1996,13(1):20-24
[9]杭珍,黄卓忠,江文.生姜组织培养快繁技术研究与应用.江苏农业科学,2006,5:125-127
[10]Chen JY,Chen BS.Tissue cultue of explants from Polygonum cuspidatum.Plant Physiology Communication,1988,(6):41
[11]陈惠,王文科,卢英梅等.南方红豆衫外植体来源与培养基成分对愈伤组织生长和紫杉醇的影响.中草药,2005,36(5):748.
[12]严海燕,曹日.紫草组织培养中细胞发育时期与紫草宁形成关系的研究.中草药,2001,32(03):264.
[13]石俊英,牟彩萍,向凤宁等.西洋参和胡萝卜体细胞融合培养杂种鉴定及愈伤组织中人参皂苷含量分析.山东中医药大学学报,2003,27(6):448.
[14]孙敏,曾建军.长春花毛状根培养及抗癌生物碱产生的研究.中国中药杂志,2005,30(10):741-743
[15]曹庸,张敏,于华忠等.气象因子和矿质元素对虎杖根茎白藜芦醇含量的影响.应用生态学报,2004,15(7):1143-1147
[16]Bryant JP,Chapin FS,Klein DR.Carbon/nutrient balance of boreal plants in relation to vertebrate herbivory.O ikos,1983,40:357-358
[17]Kong CH,Xu T,Hu F,et al.All elopathy under environmental stress and its induced mechanism.Acta Ecologica Sinica,2000,20:849-854
[18]曹福祥.次生代谢及其产物生产技术.长沙:国防科技大学出版社,2003
[19]欧菊泉,陈冒香,丁利华等.虎杖愈伤组织的诱导及其白藜芦醇形成初探.中南林学院学报,2006,26(3):24-27,50
[20]卢艳花.中药有效成分提取分离技术.北京:化学工业出版社,2005
[21]郭孝武.超声提取黄芩苷成分的实验研究.中国现代应用药学杂志,1999,16(3):18-20
[22]毕立君,李君.水芹中总黄酮类化合物最佳提取工艺研究.食品科学,1999,(12):35-37
[1]王小菁.我国光形态建成研究回顾.植物学通报,2003,20(4):407-415
[2]曾建国,侯团章.高效液相色谱法测定虎杖提取物中白藜芦醇的含量.中国中医药科技,2000,7(3):223-224
[3]周建军,张宏杰等.汉中地区虎杖中白藜芦醇苷及苷元含量的测定.中草药,2002,33(5):1352-1353
[4]于华忠,李国章等.虎杖白藜芦醇提取物的干燥方法研究.林产化工通讯,2005,39(1):12-14
[5]Makunga NP,Staden J,Cress WA.The effect of lighe and 2,4-D on anthocyanl preduction in Oxalis reclinata callus.Plant Growth Regulation,1997,23:153-158
[6]Ke-seng Zhao,Chunhua Jin.The mechanism of Polydatin in shock treatment.Clinical Hemorheology and Microcirculation,2003(29):211-217
[7]孙桂英,刘正坪.茄子愈伤组织诱导条件的初探.内蒙古农业大学学报:自然科学版,2004,25(2):66
[8]郭勇,崔堂兵,谢秀祯.植物细胞培养技术与应用.北京:化学工业出版社,2004.
[9]冷平生,王天华,苏淑钗等.银杏黄酮和内酯的季节变化.植物资源与环境学报,2001,10(3):15-18
[10]苏淑钗,王天华,蒋湘宁等.光强与光质对银杏苗木生理特性及黄酮内酯含量的影响.植物资源与环境学报,2002,11(1):1-4
[11]刘春朝,叶和春,王玉春等.适于青蒿芽生长和青蒿素积累的光、温和培养方式探讨.植物生理学报,1999,25(2):105
[12]叶和春,尹作鸿,李国风等.不同理化因子对新疆紫草愈伤组织生长及紫草宁衍生物合成的影响.植物学报,1991,22(12):927-929
[13]王洋,戴绍军,阎秀峰等.光照对喜树叶片次生代谢产物喜树碱的影响.生态学报,2004,24(6):1118-1122
[14]陈耀峰.植物细胞与组织培养.北京:中国农业出版社,2007
[1]吴奇君,梅兴国.果糖和前体物质对紫杉醇生物合成的影响.生命科学研究,2001,5(2):146-148
[2]顾世梁,朱庆森,杨建昌等.不同水稻材料籽粒灌浆特性的分析.作物学报,2001,24(1):7-14
[3]王敬文,薛应龙.植物苯丙氨酸裂解酶的研究Ⅱ:苯丙氨酸裂解酶在抗马铃薯晚疫病总的作用.植物生理学报,1982,8(1):35-43
[4]李合生.植物生理生化试验原理合技术.北京:高等教育出版社,2001
[5]邹绮.植物生理学实验指导.北京:中国农业出版社,2001
[6]王志琴,叶玉秀,杨建昌等.水稻灌浆期籽粒中蔗糖合成酶活性的变化与调节.作物学报,2004,30(7):634-643
[7]张祖建,王志琴,朱庆森等.水稻胚乳细胞增殖动态分析及其与籽粒生长的关系.作物学报,1998,24(3):257-264
[8]陈永勤,吴蕴祺,胡秋等.苯丙氨酸、蔗糖和甘露醇对杂种红豆杉细胞的生长及形成紫杉醇、巴卡亭Ⅲ和102去乙酰基巴卡亭Ⅲ的影响.药学学报,1998.33(2):132-137
[9]曾鑫年,谢建军.前体物质对毛鱼藤离体合成鱼藤酮的影响.农业生物技术学报,2001,2:149-151
[10]欧阳光察,薛应龙.植物苯丙烷类代谢的生理意义及其调控.植物生理学通讯,1988,24(3):9-16
[11]马俊彦,杨汝德,敖利刚.植物苯丙氨酸解氨酶的生物学研究进展.现代食品科,2007,23(7):71-74,91
[12]臧小云,刘丽萍,蔡庆生等.不同供氮水平对荞麦茎叶中黄酮含量的影响.南京农业大学学报,2006,29(3):28-32
[13]项雷文,郭丽梅.前体物质对粉葛细胞生长及次生代谢的影响.福建师大福清分校学报,2004,2:50-53
[14]王燕,刘卫红,杜何为等.底物、末端产物对离体银杏叶苯丙氨酸解氨酶活性的影响.果树学报,2004,21(5):443-446
[15]刘世琦,刑禹贤.三种瓜类子房初期可溶性糖、Pr及POD活动的变化.园艺学报,2002,29(5):454-456
[16]冯玲玲,周诗毅,杨春艳等.黑暗和光照对丹参培养细胞生长和生理生化特性的影响.生态学杂志,2005,22(2):24-26
[17]陈洪国.桂花开花进程中花瓣色素、可溶性糖和蛋白质含量的变化.武汉植物研究,2006,24(3):231-234
[1]Kutehan TM.Strictosidine from alkaloid to enzyme to gene.Phytochenr,1993,32:493-506
[2]Nef C,Rio B,Chrestin H.Induction catharanthine synthesis and stimulation of major indol ealkaloids Production in Catharanhtus roseus cells under non-growth altering treatment With Pythium vexans extraets.Plant Cell Rep,1991,10:26-29
[3]张中义,冷怀琼,张志铭等.植物病原真菌学.成都:四川科学技术出版社,1991
[4]欧阳光察.植物生理学实验指导.上海:上海科学技术出版社,1985
[5]Zhao HL,Yu RM.Progress in the application of elicitors in the plant cell cultures.Journal of shenyang pharmaceutical university,2000,17(2):152-156
[6]关军峰,马智宏,陈星.肌醇磷脂信息传递系统在苹果花粉萌发和花粉管生长中的作用.果树科学,1999,16(4):250-254
[7]薛应龙.植物生理学实验手册.上海:上海科学技术出版社,1985
[8]熊庆娥.植物生理学实验教程.成都:四川科学技术出版社,2003
[9]中国科学院上海植物生理研究所,上海市植物生理学会.现代植物生理学实验指南.北京:科学出版社,1999
[10]黄海涛,王丹,李卫锋等.盐胁迫和辐射复合处理对东方百合不定芽增殖及POD同工酶的影响西北农业学报,2008,17(2):2502253
[11]]吉前华,梁广坚,郭雁君等.德庆贡柑果实品质相关的同工酶分析.四川农业大学学报,2007,25 (4):425-429
[12]B.B.布坎南,W.格鲁依森姆,R.L.琼斯.植物生物化学与分子生物学.北京:科学出版社,2004
[13]Kutney JP,Samija MD,Hewitt GM,et al.Anti-inflammatory oleanane triterpenes from Tripterygium wilfordil cell suspension cultures by fungal elicitation.Plant Cell Rep,1993,12:356-359
[14]Nef C,Trouslot MF,Trouslot P,et al.Long-term effect of a pythium elicitor treatment on the growth and alkaloid production of Catharanthus roseus cell suspensions.Planta Med,1994,60:149-152
[15]Singh G,Gavrieli J,Oakey JS,et al.Interaction of methyl jas monate,wounding and fungal elicitation during sesquiterpene induction in Hyoscyamus muticus in root cultures.Plant Cell Rep,1998,17:391-395
[16]刘长军,侯嵩生,李新明,等.真菌诱导子对悬浮培养西洋参细胞的生理效应.武汉植物学研究,1996,14(3):240-246
[17]Eilert U.Elicitation:methodology and aspects of application.In:Constabel F and Vasil I.K.(eds).Cell Culture and Somatic Cell Genetics of Plants,1987,4:153
[18]Brodelius,Pedensen H.Increasing secondary metaboltte production in plant cell culture by red krect -ing transport-e.g,by cell petmeabilization,the use of phase partitioning or eliertor compounds,and gene -tic engineerin a revuew.Trend in Biotech,1993,11:35
[19]周敏.内生真菌及其诱导子与长春花悬浮细胞生物碱合成代谢相关性研究(学位论文).湖南农业大学,2005
[20]Dixon R A.Activition struction and orgnization of genes involved in microbial defense plants.Adv in Gene,1990,28:165-217.
[21]马俊彦,杨汝德,敖利刚.植物苯丙氨酸解氨酶的生物学研究进展.现代食品科,2007,23(7):71-74,91
[22]Yamada T,An C,Ichinose Y.Organization of the genes encoding chalcone synthase in pisum sativum Plant Mol Biol,1993,21(5):789-803
[23]李家儒,刘曼西,曹孟德,等.桔青霉诱导子对红豆杉培养细胞中紫杉醇生物合成的影响.植物研究,1998,18(1):78-82
[24]许建峰,苏志国,冯朴荪.高山红景天细胞悬浮培养中红景天甙生物合成代谢调控Ⅱ:真菌诱导物的影响[J].天然产物与开发,1998,10(3):6-11
[25]Lebrun Garcia A,Bourque S,Binet MN,et al.Involvement of plasma membrane proteins in plant de -fense responses.Analysis of the cryptogein signaltransduction in tobacco.Biochimie,1999:81(6):663-668
[26]Hahlbrock K,D Scheel,E Logemann,et al.Oligopeptide Elicitor-Mediated Defense Gene Activation in Cultured Parsley Cells.Proceedings of the National Academy of Sciences,1995,92(10):4150-4157
[27]Thompson CB.Apoptosis in pathogenesis and treatment of discase.Science,1995:267-285
[28]李春,元英进,马忠海等.寡聚糖诱导悬浮培养红豆杉细胞生理态势的改变.化工学报,2002,53(11):1133-1138
[29]李靖,利容千,袁文静。黄瓜感染霜霉病菌叶片中一些酶活性的变化.植物病理学报,1991,21(4):277-283
[30]党尉,尉亚辉,曹辉.白藜芦醇合酶的研究进展.植物学通报,2003,20(2):152-159
[31]刘璞,陈珈.植物激素脱落酸的信号转导.植物生理学通讯,1996,36(2):165-169
[1]朱立贤,金征宇,虎杖中白藜芦醇提取分离工艺的研究,安徽农业科学,2005,33(1):77-78
[2]余迪求,岑川,杨明兰等.水杨酸诱导烟草培养细胞的脂质过氧化和保护基因表达的研究.植物学报,1999,41(9):977-982
[3]兰文智,余龙江,吴元喜.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.西北植物学报,2002,22(1):78-83
[4]陈颖.银杏组织、细胞培养及其生产黄酮的代谢调控研究(博士学位论文).南京林业大学,2005
[5]李晓东,郑先波,闫树堂等.水杨酸和紫外线对诱导采后葡萄果皮内白藜芦醇合成作用研究.果树学报,2007,24(1):30-33
[6]彭金英,黄勇平.植物防御反应的两种信号转导途径及其相互作用。植物生理与分子生物学学报,2005,31(4):347-353。
[7]毛爱军,王永健,冯兰香等.水杨酸诱导辣椒抗疫病生化机制的研究。中国农学通报,2005,21(5):219-222。
[8]刘清华,钟章成.紫外线-B辐射对银杏活性氧代谢及膜系统的影响.西华师范大学学报(自然科学版),2007.28(2):148-152
[9]吴杏春,林文雄,郭玉春等.植物对UV-B辐射增强响应的研究进展.中国生态农业学报,2002,9(3):52-55
[10]姜发军.黑曲霉提取物与水杨酸对长春花悬浮细胞生长及生物碱代谢作用的研究(硕士学位论文).湖南农业大学,2004
[11]赵平,曾小平,孙谷畴.陆生植物对UV-B辐射增量响应研究进展.应用与环境生物学报,2004,10(1):122-127
[12]盛桂莲,李文新,李睿等.植物叶片中防御性化合物的紫外线诱导研究.武汉植物学研究,2000,18(1):67-69
[13]B.B.布坎南,W.格鲁依森姆,R.L.琼斯.植物生物化学与分子生物学.北京:科学出版社,2004
[14]王冬良,陈友根,朱世东等植物抗病中的信号分子研究.中国农学通报,2005,21(12):77-82