花粉管通道法介导的铁皮石斛转基因技术

该研究以含有GFP和GUS基因的质粒和农杆菌为载体,采用花粉管通道法对铁皮石斛进行转基因技术研究。结果表明:(1)铁皮石斛种子萌发和原球茎生长对卡那霉素的最低致死浓度分别为90和150 mg·L~(-1)。进一步研究证实,在筛选转化种子和原球茎时,可分别向培养基中添加100和150 mg·L~(-1)的卡那霉素进行选择培养。(2)以携带GFP和GUS基因的质粒(pSuper1300和pBI121)和农杆菌为载体,用无菌去离子水重悬质粒pSuper1300和pBI121至浓度为100 ng·μL~(-1),用2%蔗糖+1/2MS+0.1%silwet-77+0.1%AS或5%蔗糖+0.1%silwet-77+0.1 mmol·L~(-1)AS重悬携带质粒pSuper1300和pBI121的农杆菌至菌液浓度为OD_(600)=0.7~0.8;在授粉后0.5~2.5 h内使用柱头滴加法导入携带外源基因的质粒或农杆菌溶液,收集成熟的转化种子,经选择培养及PCR检测发现,几乎所有处理的转化材料均能检测出外源GFP和GUS基因片段。另外,与农杆菌相比,以质粒为载体进行转化,可获得更高的结实率。该研究结果为铁皮石斛的基因工程育种提供了参考。     

花粉管通道技术转化番木瓜的初步研究

以番木瓜"solo Ⅱ"号植株为受体材料,用花粉管通道法进行了番木瓜环斑病毒外壳蛋白基因(PRSV-CP)278 bp片段的遗传转化.采用质粒DNA和农杆菌菌液两种导入液,分别处理花187和232朵,收获成熟番木瓜105和30个.座果率分别为56.15%和12.93%,随机选择每种载体的种子100粒播种.成株率分别为61%和60%.对T1幼苗(除含空载体外)全部进行PCR检测.检测结果为质粒DNA和农杆菌菌液两种导入液转化所得的幼苗阳性率分别为50.54%和51.22%.     

利用RNAi技术抑制拟南芥NHX1基因家族的表达

采用RNAi抑制NHX1基因家族的表达,并观察其对拟南芥耐盐性和耐旱性的影响.根据从拟南芥(Ara-bidopsis thaliana)cDNA中扩增出编码Na /H 反向转运蛋白基因AtNHX1长度为210 bp高度保守序列作为RNAi的靶标区,并正反2个方向插入载体pHANNIBAL中,2个片段用intron连接;将RNAi表达框连入具有NPTⅡ筛选标记基因的表达载体pART27中,构建以拟南芥NHX1基因家族为靶标的RNAi载体.采用农杆菌介导的真空渗透法转化拟南芥,得到T0代转基因拟南芥种子.对转基因阳性植株进行RT-PCR检测以及耐盐性和耐旱性分析.结果表明,利用本实验构建的NHX1基因家族RNAi载体,拟南芥NHX1基因家族表达被成功地抑制;耐盐和耐旱分析表明RNAi技术对基因表达沉默是有效的.     

小叶杨Δ~1-吡咯琳-5-羧酸合成酶(P5CS)基因克隆及在杂种落叶松中的转化

以小叶杨为材料构建了干旱胁迫和正常生长条件下的cDNA文库,以特异性引物从中扩增出一条1 850bp大小的DNA片段,经序列分析证实该片段编码Δ1-吡咯琳-5-羧酸合成酶(P5CS)。将该片段构建入植物表达载体pBI121中,在落叶松杂交育种中利用花粉管通道法将带有该P5CS基因的植物表达质粒转化入杂种落叶松,收获球果取出种子,提取转化种子发芽长出幼芽的DNA,特异性PCR扩增和Southern,Western Blotting检测证实落叶松中已导入P5CS基因。     

利用花青素可视化跟踪表达系统快速筛选表达Cry1Ab/c基因的转基因玉米

以草甘膦抗性基因Epsps为标记基因, 在原核Kan^r基因两侧引入Cre(环化重组酶)基因识别的Lox-P位点, 同时以编码花青素合成转录因子的Bi和Cl基因为可视化选择报告基因, 构建了Bt杀虫蛋白基因Cry1Ab/c的可视化跟踪表达载体pBAC9017。用PDS1000/He基因枪转化玉米(Zea mays)自交系501的幼胚和胚性愈伤组织, 获得147个草甘膦抗性的玉米再生植株。其中106棵植株获得了结实种子, 16棵植株的结实种子有紫红色花青素基因的表达。经PCR检测表明, 外源Cry1Ab/c基因已经整合到玉米的基因组中。转基因植株种子蛋白粗提物用BT-Cry1Ab/1Ac金标免疫检测试纸条和ELISA检测, 结果表明, Cry1Ab/c在部分转基因植株后代中表达。     

真空渗透法转化植物的研究

以拟南芥为材料介绍一种不需组培的原位植物转化方法—真空渗透法。将含有Ｔ—ＤＮＡ载体的农杆菌细胞悬液,用真空渗透的方式转化愈伤的完整植株,从而直接获得转化的种子。该法快速简便、重复性好,不需经过组培阶段即可获得转化植株,其转化效率完全可以满足基因转移及表达检测研究的需要     

花青素合成调控转录基因作为直观标记的载体构建及其在玉米幼胚中的瞬时表达

采用花青素调控因子C1/Bperu分别与玉米胚特异性启动子Glb1和组成型启动子CaMV35S构建成植物转化载体pGlb1CB和p35SCB,并利用基因枪转化方法,将重组表达载体转入玉米幼胚。显微观察结果证实,这两个载体均能在玉米幼胚细胞中瞬时表达。用花青素作为标记基因不仅可以在一定程度上减少公众对转基因生物安全性方面的担忧,而且可以帮助直观地从转化当代和后代种子中通过颜色标记筛选到转化籽粒,从而可以大大简化筛选程序,提高效率,节约检测成本。     

小叶杨△1-吡咯琳-5-羧酸合成酶(P5CS)基因克隆及在杂种落叶松中的转化

以小叶杨为材料构建了干旱胁迫和正常生长条件下的cDNA文库,以特异性引物从中扩增出一条1850bp大小的DNA片段。经序列分析证实该片段编码△^1-吡咯琳-5-羧酸合成酶（P5CS）。将该片段构建入植物表达载体pB1121中,在落叶松杂交育种中利用花粉管通道法将带有该P5CS基因的植物表达质粒转化入杂种落叶松,收获球果取出种子,提取转化种子发芽长出幼芽的DNA,特异性PCR扩增和Southern,Western Blotting检测证实落叶松中已导入P5CS基因。     

产朊假丝酵母整合表达载体的构建

[目的]构建一个产朊假丝酵母(Candida utilis,C.utilis)整合表达载体.[方法]该载体以质粒pBR322为骨架,包括3-磷酸甘油醛脱氢酶(GAP)启动子和终止子、放线菌酮(CYH)抗性基因和18S rDNA介导的同源整合区.再以木聚糖酶基因为目标基因,插入pGLR9K载体上,构建重组表达载体,电击转化C.utilis.对阳性转化子进行酶活测定,检测其表达情况.[结果]转化子的胞内外都可检测到木聚糖酶酶活,酶活可达60 U/mL.[结论]本实验构建了一个C.utilis载体,并用此载体表达了木聚糖酶基因,本研究将为产朊假丝酵母工程菌在饲料添加剂及食品行业中的应用提供又一个新的实验平台.     

利用农杆菌介导法将γ-生育酚甲基转移酶基因导入油菜的研究

将γ-生育酚甲基转移酶基因导入油菜,旨在提高菜油中的维生素E含量。为了使该基因在油菜种子中特异表达,采用油菜种子特异启动子BcNA1,构建了植物表达载体pBIBE。以花油五号和花油六号油菜品种子叶柄为受体,将γ-生育酚甲基转移酶基因(γ-TMT)通过农杆菌介导法转化油菜,获得了22株抗卡那霉素再生植株。经过PCR检测,其中有7株表现为阳性,初步证明γ-TMT已整合到油菜基因组中。     

ACC deaminase activity in avirulent Agrobacterium tumefaciens D3

Some plant-growth-promoting bacteria encode the enzyme 1-aminocyclopropane-1-carboxylic acid (ACC) deaminase, which breaks down ACC, the direct precursor of ethylene biosynthesis in all higher plants, into ammonia and α-ketobutyrate and, as a result, reduces stress ethylene levels in plants caused by a wide range of biotic and abiotic stresses. It was previously shown that ACC deaminase can inhibit crown gall development induced by Agrobacterium tumefaciens and can partially protect plants from this disease. Agrobacterium tumefaciens D3 has been previously reported to contain a putative ACC deaminase structural gene (acdS) and a regulatory gene (acdR = lrpL). In the present study, it was found that A. tumefaciens D3 is an avirulent strain. ACC deaminase activity and its regulation were also characterized. Under gnotobiotic conditions, wild-type A. tumefaciens D3 was shown to be able to promote plant root elongation, while the acdS and lrpL double mutant strain A. tumefaciens D3-1 lost that ability. When co-inoculated with the virulent strain, A. tumefaciens C58, in wounded castor bean plants, both the wild-type A. tumefaciens D3 and the mutant A. tumefaciens D3-1 were found to be able to significantly inhibit crown gall development induced by A. tumefaciens C58.     

大豆基因型对根癌农杆菌菌株敏感性的研究

以栽培大豆［Glycine max (L.) Mer］吉林30、吉林43、绥农8、黑农35和东农42等的下胚轴为外植体,用EHA105和LBA4404 2个根癌农杆菌菌株（分别含有pGBI121S4ABC和pGBI4A2B质粒）研究大豆基因型对根癌农杆菌的敏感性,以及根癌农杆菌对大豆的侵染能力。结果表明,大豆基因型对根癌农杆菌的敏感性存在显著差异,以吉林43最敏感。根癌农杆菌菌株对大豆下胚轴侵染能力不同,含有pGBI121S4ABC质粒的LBA4404侵染能力较强,但差异未达显著水平。 Abstract:The sensitivity of genotypes in soybean to lines of Agrobacterium tumefaciens and the ability of A.tumefaciens infecting to soybean were investigated with hypocotyls of soybean (Jilin30,Jilin43,Suinong8,Heinong35 and Dongnong42) and lines of A.tumefaciens LBA4404 and EHA105 which including plasmid pGBI121S4ABC and pGBI4A2B respectively.The results showed that the sensitivity of genotypes in soybean to A.tumefaciens was significantly different.Jilin43 was the most sensitive materials to A.tumefaciens.The ability of A.tumefaciens infecting hypocotyls in soybean was different.LBA4404 including plasmid pGBI121S4ABC was easier to infect hypocotyls of soybean.     

Conjugation in Agrobacterium tumefaciens in the absence of plant tissue.

A general, reliable conjugation system for Agrobacterium tumefaciens in the absence of plant tissue is described in which A. tumefaciens can serve either as the donor or recipient of plasmid deoxyribonucleic acid with reasonable efficiency. Plasmid RP4 was transferred from Escherichia coli to A. tumefaciens and from strain of A. tumefaciens. Both RP4 and the A. tumefaciens virulence-associated plasmids were detected by alkaline sucrose gradients in A. tumefaciens strains A6 and C58 after mating with E. coli J53(RP4). The pathogenicity (tumor foramtion) of strains A6 and C58 and the sensitivity of strain C58 to bacteriocin 84 were unaffected by the acquistion of RP4 by the Agrobacterium strains. Plasmid R1drd-19 was not transferred to A. tumefaciens. Transformation experiments with plasmid deoxyribonucleic acid were unsuccessful, even though, in the case of RP4, conjugation studies showed taht the deoxyribonucleic acid was compatible with that of the recipient strains.     

Host-Bacteriophage Interaction in Agrobacterium tumefaciens III. Phage-Coded Endolysins

Endolysins were detected in a sensitive strain of Agrobacterium tumefaciens (B6) after infection with phage LV-1 and in the lysogen A. tumefaciens V-1 after induction with mitomycin C. A similar endolysin was found in mitomycin C-induced A. tumefaciens C-58, which apparently harbors a defective prophage.     

Enhanced soybean infection by the legume "super-virulent" Agrobacterium tumefaciens strain KAT23

Agrobacterium tumefaciens KAT23 harbors a nopaline-type Ti plasmid and is "super-virulent" to soybean (Glycine max) and other leguminous plants. The right and left border sequences of the essential cis-element for T-DNA transfer were removed in order to utilize the high infectivity of this strain in an Agrobacterium-mediated soybean transformation system. The resulting strain, named Soy2, showed no oncogenic activity. After inoculation with disarmed Soy2 harboring binary vector pIG121-Hm and pCAMBIA-WR, soybean epicotyls exhibited high beta-glucuronidase activities, with efficiencies higher than EHA105, an A. tumefaciens strain widely used in making transgenic plants.     

水稻转化体系的改进及转os-miR398基因植株的获得

针对根癌农杆菌介导的愈伤转化技术在实际应用中转化效率低及农杆菌污染等问题,对该方法在水稻转化过程进行改良:(1)在转化前将空白愈伤从培养基取出,于室温放置在空白皿中约24 h,使之处于饥饿状态,以利于T-DNA转化并提高转化率;(2)在愈伤与农杆菌共培养并经无菌洗脱后,在转移到相应培养基之前,将其于室温下继续放置在含有滤纸的培养皿里约24 h,从而有效地抑制农杆菌生长.采用本改良措施,成功将所克隆构建的os-miR398(水稻microRNA398)前体基因表达载体转化入水稻,与对照相比,改良后水稻转化效率可提高10%.     

Involvement of a vitronectin-like protein in attachment of Agrobacterium tumefaciens to carrot suspension culture cells.

Infections of dicotyledonous plants by Agrobacterium tumefaciens result in the formation of crown gall tumors. Attachment of the bacteria to plant host cells is required for tumor formation. Human vitronectin and antivitronectin antibodies both inhibited the binding of A. tumefaciens to carrot cells. Wild-type bacteria are able to bind radioactive vitronectin; nonattaching mutants showed a reduction in the ability to bind vitronectin. The binding of biotype 1 A. tumefaciens to carrot cells or to radioactive vitronectin was not affected by high ionic strength. Detergent extraction of carrot cells removed the receptor to which the bacteria bind. The extract was found to contain a vitronectin-like protein. These results suggest that A. tumefaciens utilizes a vitronectin-like protein on the plant cell surface as the receptor for its initial attachment to host cells.