香石竹毛状根诱导、离体培养及其植株再生

为了探讨利用发根农杆菌遗传转化所产生的毛状根来创新香石竹种质的可能性,本文采用叶盘法,建立了发根农杆菌Agrobacterium rhizogenes对香石竹Dianthus caryophyllus L.叶片外植体的遗传转化及其植株再生体系。结果表明,发根农杆菌ATCC15834感染香石竹幼嫩叶片外植体12 d后,从叶片外植体切口中脉处产生白色毛状根,21 d后约90%的叶片外植体产生毛状根。所获得的无菌毛状根能在无外源激素的MS固体和液体培养基中快速自主生长。PCR扩增和硅胶薄层层析结果显示发根农杆菌Ri质粒的rol B和rol C基因以及冠瘿碱合成酶基因已在香石竹毛状根基因组中整合并得到表达。将毛状根置于MS+6-BA 1.0-3.0 mg/L+NAA 0.1-0.2 mg/L中培养15 d后产生淡黄绿色的疏松愈伤组织。愈伤组织不定芽分化的最适培养基为MS+6-BA 2.0 mg/L+NAA 0.02 mg/L,培养6周后不定芽分化率为100%;平均每个愈伤组织产生30-40个不定芽;将不定芽转至1/2 MS或1/2 MS+0.5 mg/L NAA的培养基中10 d后产生不定根,发育成再生植株。再生植株移植于栽培基质中20 d后,成活率达95%以上。     

新疆雪莲毛状根的诱导及其植株再生体系的建立

利用发根农杆菌R1601、R1000、LBA9402感染新疆雪莲的叶片、叶柄和根段外植体,诱导产生毛状根。毛状根接种量为2.8 g/L(FW)时,20d生长量可达66.7 g/L,黄酮含量达到干重的10.23%。冠瘿碱的检测和rolB基因的PCR分析表明,Ri质粒中的T_DNA片段已经整合到毛状根细胞的基因组中。预培养时间、外植体类型以及发根农杆菌的菌株属性对毛状根诱导有着重要的影响。其中预培养2 d的新疆雪莲根段外植体,经过R1601感染后,毛状根的诱导率可达100%。诱导产生的毛状根在附加生长素的液体培养基中,有少量愈伤组织产生。由毛状根再生的植株与雪莲外植体再生的植株在形态上无明显区别,但前者的黄酮含量仅为后者的53%。     

北玄参毛状根诱导及其植株再生

利用发根农杆菌A4和R1601感染北玄参(Scrophularia buergeriana)叶片外植体,诱导产生毛状根,产生的毛状根可在无激素的液体和固体MS培养基上快速生长。rol B基因的PCR检测表明,Ri质粒中的T-DNA片段整合到了北玄参毛状根的基因组中。毛状根在附加0.5 mg·L–1 6-BA及0.1 mg·L–1 NAA的MS固体培养基上形成绿色愈伤组织,之后形成不定芽,并获得再生植株;毛状根在附加0.5 mg·L–1 6-BA及0.02 mg·L–1 NAA的MS固体培养基上培养约15–20天可直接形成不定芽,且不定芽的诱导率达85%。     

木豆毛状根的诱导及其培养条件的研究

利用发根农杆菌LBA9402对木豆叶片直接进行诱导产生毛状根。本实验研究出诱导木豆毛状根的最佳条件是,以木豆叶片为外植体,于1/2MS固体培养基上预培养2~4 d,菌液浓度OD₆₀₀=0.6~0.8,浸染20 min,共培养3 d,诱导率为60.00%。在分子水平用PCR检测表明,发根农杆菌9402Ri质粒上的T-DNA成功整合进木豆毛状根的基因组中。     

发根农杆菌介导的菠菜毛状根遗传转化体系的建立

发根农杆菌(Agrobacterium rhizogenes)侵染植物后可诱导植物产生毛状根。菠菜(Spinacia oleracea)是常见的食用蔬菜, 目前尚未见菠菜毛状根的研究报道。经筛选得到适合诱导菠菜毛状根的发根农杆菌菌株LBA9402, LBA9402侵染菠菜外植体茎后, 毛状根的诱导率最高可达16%。菠菜毛状根呈白色, 具有丰富的根毛, 能在无外源激素的固体培养基上快速增殖生长。通过诱导菠菜毛状根产生愈伤组织并进行分化, 获得了菠菜毛状根的再生植株, 再生率为8%。此外, LBA9402可将含有Ri质粒的T-DNA和携带外源GFP基因的Ti质粒T-DNA共同导入外植体中。PCR检测和荧光显微观察结果显示, rolB及GFP基因在菠菜毛状根基因组中稳定表达, 共转化频率为50%。     

外植体龄和蔗糖浓度对黄瓜子叶产生毛状根的影响

研究了外植体龄和蔗糖浓度对发根农杆菌 R160 1介导黄瓜子叶产生毛状根的影响。结果表明 :以 10 d龄子叶外植体产生毛状根的能力最强 ,外植体的毛状根诱导率为 88.89% ;2 0 d龄子叶外植体的毛状根诱导率比 10 d龄子叶外植体降低 52 .86% ;30 d龄子叶外植体感染发根农杆菌R160 1后不产生毛状根。感染发根农杆菌 R160 1的黄瓜子叶外植体在不加或加 1%蔗糖的 MS培养基上的毛状根诱导率极低 ,子叶外植体逐渐变黄 ,腐烂 ;而培养基中添加 2 % ,3%或 4 %的蔗糖可显著提高子叶外植体的毛状根诱导率。黄瓜毛状根能在无外源植物激素的 MS液体培养基中自主生长。冠瘿碱的高压纸电泳检测表明毛状根已被 Ri T- DNA转化     

发根农杆菌介导的菠菜毛状根遗传转化体系的建立

发根农杆菌(Agrobacterium rhizogenes)侵染植物后可诱导植物产生毛状根。菠菜(Spinacia oleracea)是常见的食用蔬菜, 目前尚未见菠菜毛状根的研究报道。经筛选得到适合诱导菠菜毛状根的发根农杆菌菌株LBA9402, LBA9402侵染菠菜外植体茎后, 毛状根的诱导率最高可达16%。菠菜毛状根呈白色, 具有丰富的根毛, 能在无外源激素的固体培养基上快速增殖生长。通过诱导菠菜毛状根产生愈伤组织并进行分化, 获得了菠菜毛状根的再生植株, 再生率为8%。此外, LBA9402可将含有Ri质粒的T-DNA和携带外源GFP基因的Ti质粒T-DNA共同导入外植体中。PCR检测和荧光显微观察结果显示, rolB及GFP基因在菠菜毛状根基因组中稳定表达, 共转化频率为50%。     

发根农杆菌转化大豆的研究

本文利用发根农杆菌感染大豆不同外植体,在成熟胚靠近子叶节部位诱导产生毛状根。经冠瘿碱检测表明,毛状根及由此产生的愈伤组织均有甘露碱存在,说明Ri质粒的T-DNA已整合到大豆的转化根及愈伤组织中。转化根再生实验表明,在含NAA和IAA8mg/L的MS培养基上得到不定根的分化,MS和B_3培养基及6％蔗糖对转化丛生芽的诱导有利。转化的丛生芽在MS基本培养基上进一步长成小植株。     

4种发根农杆菌对朱砂根组培无菌叶片毛状根诱导的影响

以朱砂根(Ardisia crenata Sims)组培无菌叶片为材料,用4种发根农杆菌菌株(A4、ATCC15834、LBA9402和R1601)分别侵染进行毛状根诱导,比较朱砂根叶片毛状根诱导的最适培养基种类、预培养时间、侵染方式、共培养时间以及不同发根农杆菌的致根能力。研究表明:(1)朱砂根无菌叶片毛状根诱导最适培养基为1/2MS培养基,预培养2d、共培养2d,毛状根诱导率最高(31.87%)。(2)最佳侵染方式以剪好的幼叶和活化好的菌液(100mg/L AS)一起在28℃、180r/min黑暗条件下共振荡8~15min。(3)4种发根农杆菌均能诱导朱砂根叶片毛状根产生,但A4、ATCC15834效果最好,其致根能力大小顺序依次为ATCC15834A4LBA9402R1601。(4)PCR分子鉴定表明,发根农杆菌Ri质粒T-DNA已成功整合到宿主细胞核基因组中。     

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。     

Agrobacterium rhizogenes-mediated transformation of scented geranium

A method is described for producing genetically transformed plants from explants of three scentedPelargonium spp. Transgenic hairy root lines were developed fromPelargonium spp leaf explants and microcuttings after inoculation withAgrobacterium rhizogenes strains derived from the agropine A4 strain. Hairy root lines grew prolifically on growth regulator-free medium. Transgenic shoots were regenerated from hairy roots and the plants have been successfully transferred to soil. The phenotype of regenerated plants has been characterized as having abundant root development, more leaves and internodes than the controls, short internodes and highly branched roots and aerial parts. Southern blot analyses have confirmed the transgenic nature of these plants.     

Agrobacterium rhizogenes-mediated transformation of scented geranium

A method is described for producing genetically transformed plants from explants of three scentedPelargonium spp. Transgenic hairy root lines were developed fromPelargonium spp leaf explants and microcuttings after inoculation withAgrobacterium rhizogenes strains derived from the agropine A4 strain. Hairy root lines grew prolifically on growth regulator-free medium. Transgenic shoots were regenerated from hairy roots and the plants have been successfully transferred to soil. The phenotype of regenerated plants has been characterized as having abundant root development, more leaves and internodes than the controls, short internodes and highly branched roots and aerial parts. Southern blot analyses have confirmed the transgenic nature of these plants.     

发根农杆菌转化怀地黄再生植株

利用发根农杆菌15834菌株感染怀地黄组培苗子叶、叶柄和茎切段,建立了有效的毛状根培养及其植株再生体系。毛状根可直接从受伤的外植体产生,能在无外源激素的1/2MS固体和液体培养基上自主生长,表现出典型的发根特征。用100μmol/L乙酰丁香酮处理对数生长期的农杆菌菌液感染子叶获得了46.7%的最高转化频率;在附加0.2mg/L KT和3.0mg/L 6/BA的1/2 MS培养基上,毛状根能100%形成愈伤组织,51.49%分化出芽;分化芽在1/2 MS培养基上100%生根,形成具有矮化、节间短和根系发达等特征的转化再生植株且移栽后生长旺盛;1个转化毛状根克隆的梓醇含量为0.557mg/g,是鲜地黄梓醇含量的48.5%,是生地鲜重梓醇含量的18%。rolB基因PCR、Southem blot分析、冠瘿碱纸电泳和RT-PCR扩增检测证明农杆菌Ri质粒上的T-DNA整合到怀地黄基因组中并表达。     

Transgenic Medicago truncatula plants obtained from Agrobacterium tumefaciens -transformed roots and Agrobacterium rhizogenes-transformed hairy roots

Medicago truncatula, barrel medic, is a forage crop that has been developed into a model legume. The development of new transformation methods is important for functional genomic studies in this species. Based on Agrobacterium tumefaciens-mediated transformation of root explants, we developed an effective system for producing M. truncatula (genotype R108) transgenic plants. Among the four A. tumefaciens strains (AGL1, C58C1, EHA105 and LBA4404) tested, EHA105 and AGL1 were most effective in regenerating transgenics. Callus induction frequency from root explants was 69.8%, and plantlet/shoot regeneration frequency was 41.3% when EHA105 was used. Transgenic nature of the regenerated plants was confirmed by PCR and Southern hybridization analyses. Progeny analysis revealed stable Mendelian meiotic transmission of transgenes. Because M. truncatula is particularly useful for the study of root endosymbiotic associations, we further developed a plant regeneration system from A. rhizogenes-transformed hairy roots of M. truncatula. Fertile true transgenic plants were regenerated from the hairy roots, thus allowing the assessment of gene functions at the whole plant level. Segregation analysis revealed that the hairy root genes could be segregated out in the progenies. By coupling A. rhizogenes-mediated hairy root transformation and the regeneration system reported here, once potential genes of interest are identified, the transformed hairy roots carrying such genes could be directly regenerated into plants for more detailed characterization of the genes.     

烟草毛状根多倍体诱导及其植株再生

为了提高烟草的烟碱含量,采用发根农杆菌遗传转化和人工染色体加倍技术,进行了烟草毛状根及其多倍体诱导、植株再生及其烟碱含量测定。结果表明,发根农杆菌ATCC15834感染烟草叶片外植体8 d后产生白色毛状根,15 d后所有叶片外植体产生毛状根。毛状根能在无外源激素的MS固体和液体培养基上自主生长。PCR扩增结果显示发根农杆菌Ri质粒的rol B和rol C基因以及冠瘿碱合成酶基因已在烟草毛状根基因组中整合并得到表达。烟草毛状根多倍体诱导的最适条件为0.1%的秋水仙素溶液处理36 h,其多倍体诱导率为64.71%。经秋水仙素加倍的烟草毛状根多倍体植株再生的最适宜培养基为MS+6-BA 2.0 mg/L+NAA0.2 mg/L。与对照(二倍体非转化植株)相比,烟草二倍体毛状根再生植株的顶端优势减弱,腋芽增多,叶片变窄;而烟草毛状根多倍体再生植株茎更粗,节间变短,叶色更深,叶片的宽度和厚度均较对照明显增大。根尖细胞染色体压片观察证实,所获得的烟草毛状根多倍体再生植株为四倍体,其根尖细胞染色体数约为4n=96。盆栽实验表明,烟草二倍体毛状根植株和多倍体毛状根再生植株比对照植株延迟约21 d开花。GC-MS检测表明,烟草毛状根多倍体再生植株的烟碱含量比对照及二倍体毛状根再生植株显著提高,分别约为对照及二倍体毛状根再生植株的6.90倍和4.57倍。     

农杆菌转化的小冠花发状根的诱导及其植株再生

利用野生型发根农杆菌15834菌株感染小冠花15日龄无菌苗子叶和下胚轴切段,建立了高效的发状根培养及其体细胞胚胎发生再生体系。发状根可直接从受伤的外植体表面产生,也能在外植体诱导的愈伤组织上发生,在无外源激素的MS固体和液体培养基上,转化根能自主生长,表现出典型的发根特征。用适宜浓度的乙酰丁香酮处理对数生长期的农杆菌菌液2h,感染预培养2d的子叶获得了最高的转化频率(87.4%)。在附加0.2mgL2,4_D,0.5mgLNAA和0.5mgLKT的MS培养基上,发状根能100%形成胚性愈伤组织,并于含0.5mgLKT,0.2mgLIBA和300mgL脯氨酸的MS培养基上顺序经过体细胞胚胎发育的各个典型时期,转换成完整植株。再生植株除具有发达的侧根外,其它形态特征与未转化植株未见明显的差异,但在获得的5个转化克隆中,其中1个的发状根及其再生植株叶片中有毒物质3_硝基丙酸的含量显著下降,分别为未转化对照的57.68%和58.17%。冠瘿碱纸电泳检测和rolB基因PCR扩增检测均证明农杆菌Ri质粒上的T_DNA已经整合到小冠花转化细胞的基因组中。     

Molecular and chemical characterization of plants regenerated from Ri-mediated hairy root cultures of Rauwolfia serpentina

Hairy root lines were induced from leaf explants of Rauwolfia serpentina known to contain high levels of reserpine (0.0882 % DW) content. Out of five high yielding hairy root lines, three (R1, R14 and R15) exhibited spontaneous regeneration of shoots after 6–8 weeks in liquid B5 medium. Excised regenerated shoots underwent robust shoot proliferation when cultured on Murashige and Skoog (MS) medium supplemented with 0.1 mg/l naphthanleneacetic acid (NAA) and 1.0 mg/l 6-benzyladenine. When shoots were transferred to a root induction medium, consisting of MS basal medium and 1.0 mg/l NAA, all rooted within 2–3 weeks. Of a total of 45 plants developed from three different hairy root lines, 30 were successfully acclimatized and transferred to the green house. Almost 90 % of these plants grown in the green house showed no observed phenotypic differences, while 10 % were stunted and grew poorly, in comparison to non-transformed plants. Phenotypic assessment of regenerated plants for plant length, number of nodes and intermodal lengths, number of leaves per node, leaf color, leaf size, number of flowering shoots, flower size, fruit size, lateral root branching and root biomass was conducted. Polymerase chain reaction and Southern blot hybridization revealed that all plants derived from hairy roots carried the Ri T_L-DNA fragment. Moreover for plants derived from transgenic hairy root line R14, presence of more than a single transgene copy number was observed, and this might have contributed to observed abnormal phenotypes. Analysis of reserpine content revealed that roots of regenerated plants had similar levels (0.0889 % DW) to those of their corresponding hairy roots.     

五寸石竹毛状根诱导及其植株再生

建立了五寸石竹(Dianthus chinensis)毛状根诱导及其植株再生体系。用含野生农杆碱型Ri质粒的发根农杆菌(Agrobacterium rhizogenes)15834感染五寸石竹叶片外植体10天后,从其形态学下端产生白色不定根;30天后,叶片外植体的生根率为95%;所产生的毛状根能在无外源生长调节剂的固体和液体MS培养基上快速自主生长。遗传转化鉴定结果表明,发根农杆菌Ri质粒的生根基因(rol)已在毛状根基因组中整合并表达。五寸石竹毛状根的根段在成分为MS+2.0 mg·L~(–1)6-BA+0.2 mg·L~(–1) NAA的培养基中培养15天后产生浅绿色疏松愈伤组织;将愈伤组织转入成分为MS+1.0 mg·L~(–1) 6-BA+0.02 mg·L~(–1) NAA的培养基中培养30天后逐渐形成不定芽。盆栽的五寸石竹毛状根再生植株与非转化植株(对照)相比节间缩短,开花期提前18天。     

Transgenic plants regenerated from hairy roots of Nicotiana benthamiana: a promising host for transient expression of foreign proteins

Hairy root cultures of Nicotiana benthamiana have been obtained by co-cultivation of leaf explants with Agrobacterium rhizogenes strain A4 harboring a binary vector plasmid, and transgenic nature of the obtained cultures was confirmed by PCR analysis. Transgenic plants were regenerated from hairy roots. The biomass yield of transgenic plants grown in vitro was almost two-fold higher than those of wild-type N. benthamiana plants. They differed from untransformed plants by short internodes, reinforced stem, thick and wrinkled leaves and more developed root system. The level of Agrobacterium-mediated transient expression of green fluorescent protein (GFP) in the regenerated plants was similar to that of untransformed plants.