发根农杆菌介导丹参牻牛儿基牻牛儿基焦磷酸合酶1基因RNA干扰载体的转化

目的：利用发根农杆菌ACCC10060介导丹参牻牛儿基牻牛儿基焦磷酸合酶1基因（SmGGPS1）RNA干扰（RNAi）载体转化丹参叶片,生成SmGGPS1的RNAi转基因毛状根。方法：根据已克隆到的SmGGPS1特异区域设计并合成2段RNAi序列,分别插入RNAi双元载体pK7GWIWG2D（Ⅱ）中,构建2个含卡那霉素（Kan）和绿色荧光蛋白（GFP）双筛选标记的植物表达载体pK7GWIWG2D（Ⅱ）-SmGGPS1-RNAi2和pK7GWIWG2D（Ⅱ）-SmGGPS1-RNAi3;利用带有上述2个RNAi载体的发根农杆菌ACCC10060侵染丹参叶片,诱导生成转基因毛状根;通过Kan抗性筛选和GFP绿色荧光观察统计转化率。结果：分别得到SmGGPS1-RNAi2和SmGGPS1-RNAi3转基因毛状根301根和399根,平均转化率为60.34%。结论：首次建立了发根农杆菌介导的外源基因转化丹参的体系。     

何首乌毛状根的诱导和培养(简报)

发根农杆菌（Agrobacteriumrhizogenes）侵染后,通过其Ri质粒的T－DNA片段在植物细胞基因组中整合,诱导形成毛状根（hairyroot）l’l。利用生长迅速、生产效能高而稳定的毛状根培养物生产药用植物的次生物质,已有不少报道「一习。但未见发根农杆菌对何首乌遗传转化的报道。何首乌（Polygonu。。ltij7orumThunb．）为常用中药,其块根为乌须发、悦颜色、益精养血和抗衰老的要药。本文报道发根农杆菌对何首乌遗传转化的实验结果,为今后用毛状根培养物生产何首乌的次生物质打下基础。l材料和方法细菌菌株及培养发根农杆菌（Agrobacteri…     

青蒿毛状根生长、青蒿素合成以及 营养物消耗的动力学

诱导产生的青蒿毛状根培养物置于MS培养基(含30 g/L蔗糖)进行悬浮培养,并对悬浮培养过程中毛状根生长、青蒿素合成、蔗糖、磷酸盐和不同氮源的消耗、pH和电导率的动力学过程进行分析。经30 d培养,生物量干重和青蒿素产量分别达到13.7 g/L和0.23 g/L,碳源和氮源在培养过程中被逐渐利用,而磷酸盐的利用速率最快,培养至15 d所有的磷酸盐均被吸收,pH在培养初期降低,后又逐渐上升,电导率由于毛状根生长对无机离子的吸收而逐渐减低。     

长春花悬浮培养细胞对天麻素的生物转化

应用长春花(Catharanthus roseus (L.) G. Don)悬浮细胞培养体系对天麻素进行了生物转化反应研究.经过8 d培养形成一个转化产物,应用光谱方法鉴定转化产物的结构为对羟基苯甲醇,为天麻素水解后形成的甙元.     

长春花悬浮培养细胞对天麻素的生物转化

应用长春花 (Catharanthusroseus (L .)G .Don)悬浮细胞培养体系对天麻素进行了生物转化反应研究。经过8d培养形成一个转化产物 ,应用光谱方法鉴定转化产物的结构为对羟基苯甲醇 ,为天麻素水解后形成的甙元。     

温度对青蒿毛状根生长和青蒿素生物合成的影响

本实验研究了不同温度(15℃～35℃)对青蒿毛状根生长和青蒿素生物合成的影响,发现25℃有利于毛状根生长,30℃促进了青蒿素生物合成。通过温度改变的二步培养技术(培养前20d温度控制在25℃,后10d温度提高到30℃),青蒿素的产量得到明显提高,高于在恒温培养时(25℃或30℃)的结果。     

发根农杆菌对短叶红豆杉的转化及毛状根中紫杉醇的产生

发根农杆菌（Ａｇｒｏｂａｃｔｅｒｉｕｍｒｈｉｚｏｇｅｎｅｓ）Ａ４（ＡＴＣＣ３１７８９）感染短叶红豆杉（Ｔａｘｕｓｂｒｅｖｉｆｏｌｉａ）芽外植株,３０～３５ｄ后可诱导出毛状根,４０ｄ后转化率可达３０％,毛状根经农杆碱单克隆抗体酶联免疫分析,证明已被转化,毛状根生长速度较快,５株毛状根在无激素的Ｂ５液体培养基中悬浮培养２ｄ生物量平均增加约９倍,是同等条件下短叶红豆杉愈伤组织液体悬浮培养的２．９倍。经紫     

滇黄芩毛状根的诱导及其黄芩苷含量测定

本文利用发根农杆菌A grobacterizum rhizogenes1.2556感染滇黄芩再生苗的茎段和叶片,建立了毛状根培养及其植株再生体系。毛状根可直接从受伤的茎、叶外植体表面产生,在无外源激素的MS固体和液体培养基上自主生长,表现出典型的发根特征。毛状根茎段的诱导率较叶片高,最高可达到14.44%;经rolB基因PCR分析和甘露碱纸电泳检测,证明Ri质粒T-DNA已整合到滇黄芩基因组中并表达;毛状根在附加6-BA2mg/L和NAA0.2mg/L的MS固体培养基上直接诱导不定芽,并在MS培养基上生根,形成再生植株。获得的毛状根系经MS液体培养基培养30d后通过HPLC都能检测到黄芩苷,其中1个转化系黄芩苷含量为2.59%,是药材黄芩的0.20倍,而从3年单位时间黄芩苷生成量计算,毛状根是药材黄芩的7.18倍。本研究建立的毛状根培养体系,将对滇黄芩转基因技术的完善和利用毛状根生产黄芩苷的生物转化提供了实验基础。     

青蒿毛状生长,青蒿素合成以及营养物消耗的动力学

诱导产生的青蒿毛状根培养物置于ＭＳ培养基（含３０ｇ／Ｌ蔗糖）进行悬浮培养,并对悬浮培养过程中毛状根生长、青蒿素合成、蔗糖、磷酸盐和不同氮源的消耗、ＰＨ和电导率的动力学过程进行分析。经３０天培养,生物量干重和青蒿纱产量分别达到１３．７ｇ／Ｌ和０．２３ｇ／Ｌ,碳源和氮 源在培养过程中被逐渐利用,而磷酸盐的利用速率最快,培养至１５天所有的磷酸均被吸收,ＰＨ在培养初期降低,后又通宵四升, 率由于毛状根生长     

利用气升式内环流生物反应器培养青蒿毛状根生产青蒿素

利用自制的气升式内环流生物反应器进行青蒿（ArtemisiaannuaL．）毛状根多层培养生产青蒿素。毛状根培养物在培养过程中均匀分布在生物反应器的筛网间，或以不锈钢网为附着点向四周生长，在25℃和12h／d光照周期下，经20d分批培养获得生物量干重22．57g／L，青蒿素产量374．4mg／L，并对培养过程中蔗糖、磷酸盐、硝酸盐和氨盐消耗的动力学进行了分析。     

Biosynthesis of coumarin glycosides by transgenic hairy roots of Polygonum multiflorum

To investigate the substrate specificity and regio-selectivity of coumarin glycosyltransferases in transgenic hairy roots of Polygonum multiflorum, esculetin (1) and eight hydroxycoumarins (2-9) were employed as substrates. Nine corresponding glycosides (10-18) involving four new compounds, 6-chloro-4-methylcoumarin 7-O-β-D-glucopyranoside (15), 6-chloro-4-phenylcoumarin 7-O-β-D-glucopyranoside (16), 8-hydroxy-4-methylcoumarin 7-O-β-D-glucopyranoside (17), and 8-allyl-4-methylcoumarin 7-O-β-D-glucopyranoside (18), were biosynthesized by the hairy roots.     

Biotransformation of 4-Hydroxybenzen Derivatives by Hairy Root Cultures of Polygonum multiflorum Thunb.

The biotransformation of four 4-hydroxybenzen derivatives （1,4-benzenediol （compound 1）, 4-hydroxybenzaldehyde （compound 2）, 4-hydroxybenzyl alcohol （compound 3） and 4-hydroxybenzoic acid （compound 4）） by the hairy root cultures of Polygonum multiflorum Thunb. as a new biocatalyst was investigated. It was found that the substrates were transformed to their corresponding glucosides, 4-hydroxyphenyl β-D-glucopyranoside （arbutin, compound la）, 4-hydroxymethylphenyl β-D-glucopyranoside （gastrodin, compounds 2a, 3a） and 4-carboxyphenyl α-D- glucopyranoside （compound 4a）, respectively. In the meantime, the hairy roots of P. multiflorum were able to stereoselectively and regioselectively glucosylate phenolic hydroxyl groups of compounds 1-4, but the cultures could not glucosylate the aldehyde group of compound 2 or the benzyllc hydroxyl group of compound 3, and no glucosyl esterification of carboxyl groups of compound 4 was detected. On the other hand, the result also showed that the hairy roots of P. multiflorum were able to reduce the 4-hydroxybenzaldehyde to its corresponding alcohol. This is the first report that substrate 4 has been converted into its α-D-glucopyranoside by a plant biotransformα- tion system.     

何首乌生物技术研究进展

综述了何首乌的快速繁殖、愈伤组织的诱导和培养、毛状根的诱导和培养以及活性成分的产生,并展望了何首乌生物技术的前景。     

A new neolignan glucoside from hairy roots of Cichorium intybus

A new neolignan glucoside was isolated from hairy roots of Cichorium intybus. Its structure was determined as (7S, 8R)-3′-demethyl-dehydrodiconiferyl alcohol-3′-O-β-glucopyranoside based on a combination of 1D and 2D NMR techniques and CD data. In addition, further water soluble constituents, including four known phenolic compounds and one known sesquiterpene lactone glucoside, were isolated from the same source.     

Flavonoids from Glycyrrhiza pallidiflora hairy root cultures

Glycyrrhiza pallidiflora hairy roots were induced from axenic young plants by direct infection with Agrobacterium rhizogenes. The chemical constituents were then investigated after mass culture. The isoflavone, licoagroisoflavone and the coumestan, licoagroside C, were isolated along with seven known flavonoids. Their structures were determined on the basis of spectroscopic evidence.     

Biotransformation of digitoxigenin by ginseng hairy root cultures.

Five new compounds (three esters and two glycosides) and seven previously reported compounds were isolated as biotransformation products of digitoxigenin by ginseng hairy root cultures. The new esters and glycosides were elucidated as digitoxigenin stearate, digitoxigenin palmitate, digitoxigenin myristate, 3-epidigitoxigenin beta-D-gentiobioside and digitoxigenin beta-D-sophoroside using 1H and 13CNMR and FAB mass spectral data. Biotransformations involving esterification (of stearic acid, palmitic acid, myristic acid and lauric acid) and glycosylation (of gentiobiose and sophorose) of digitoxigenin have been demonstrated for the first time in the plant cell and tissue cultures. The hairy roots showed high glycosylation ability to the digitoxigenin molecule.     

Camptothecin biosynthetic genes in hairy roots of Ophiorrhiza pumila: cloning,characterization and differential expression in tissues and by stress compounds

Camptothecin derivatives are clinically used anti-tumor compounds that biogenetically belong to a group of monoterpenoid indole alkaloids (TIA). We have already established a hairy root culture of Ophiorrhiza pumila (Rubiaceae) that produces camptothecin. The present study describes the cloning and characterization of cDNAs encoding strictosidine synthase (OpSTR; EC 4.3.3.2) and tryptophan decarboxylase (OpTDC; EC 4.1.1.28), two key enzymes in the biosynthesis of TIA from hairy roots of O. pumila. We also isolated the cDNA coding for NADPH:cytochrome P450 reductase (OpCPR; EC 1.6.2.4) that is presumed to be indirectly involved in camptothecin synthesis. The recombinant OpSTR and OpTDC proteins exhibit STR and TDC activities, respectively, when expressed in Escherichia coli. The tissue-specific and stress-inducible expression patterns of OpSTR and OpTDC were quite similar, unlike those of OpCPR. The high expression of OpSTR and OpTDC observed in hairy roots, roots and stems were closely correlated with STR protein accumulation as observed by immunoblot analysis. Plant stress compounds like salicylic acid repressed expression of OpSTR and OpTDC, suggesting coordinate regulation of these genes for camptothecin biosynthesis.     

何首乌的酚类成分研究

运用多种色谱学方法对德庆产何首乌(Polygonum multiflorum Thunb.)块茎的化学成分进行了分离,根据波谱数据鉴定了8个化合物,分别为physcion-8-β(6'-O-acetyl)ghcoside(1),大黄素-3-甲醚-8-β-D-葡萄糖苷(2),大黄素(3),表儿茶素(4),决明酮-8-O-β-D-吡喃葡萄糖苷(5),2,3,5,4'-tetrahydroxystilbene 2-O-β-D-glucopyranoside(6),对羟基苯甲醛(7)和5-羧甲基-7-羟基-2-甲基色原酮(8).化合物1,7和8均为首次从何首乌中分离得到.     

美洲商陆毛状根诱导及其离体培养的影响因素

为了探讨利用美洲商陆毛状根生产其药用成分的可能性,研究了美洲商陆毛状根诱导及其离体培养的影响因素。结果表明,美洲商陆叶片外植体被发根农杆菌ATCC 15834感染约18 d后,从其叶片外植体形态学下端叶脉切口处产生毛状根,其中以预培养1 d,农杆菌感染20 min,共培养4 d时的毛状根诱导率最高,达到70%。PCR扩增和硅胶薄层层析结果显示,发根农杆菌Ri质粒的rol C基因以及冠瘿碱合成酶基因已在美洲商陆毛状根基因组中整合和表达。所获得的美洲商陆毛状根系都能在无外源激素的MS固体培养基上快速自主生长;其中以毛状根根系2的生长速度最快、分生侧根能力最强和根表面的根毛密度最高;毛状根根表面呈紫红色或呈白色。在供试的MS、1/2MS、B5和6,7-V液体培养基中,以无外源激素的MS培养基最适合美洲商陆毛状根根系生长。与无外源激素的MS培养基相比,6,7-V培养基更有利于毛状根中商陆皂苷甲的合成与积累。本文所建立的美洲商陆毛状根诱导及其离体培养的适宜条件为今后利用其毛状根株系的规模培养来生产其药用有效成分商陆皂苷甲奠定了实验和技术基础。