利用FLP/frt重组系统产生无选择标记的转基因烟草植株

在植物转基因植株产生过程中,对转化细胞进行抗性筛选是通用程序,转化细胞的抗性一般是抗生素抗性或除草剂抗性,将赋予转化细胞抗性的选择标记基因删除是提高转基因植物生物安全性的重要措施。来自于啤酒酵母的FLP/frt位点特异性重组系统可有效删除同向定点重组位点frt之间的基因。通过多步骤重组,建立了可在植物中广泛应用的FLP/frt位点特异性重组系统。该系统包括含有frt位点的植物表达载体pCAMBIA1300-betA-frt-als-frt和含有由热诱导启动子hsp启动的FLP重组酶基因的植物表达载体pCAMBIA1300-hsp-FLP-hpt。利用二次转化的方式将二者先后转入烟草植株,热激处理后,热诱导型启动子hsp调控的重组酶FLP基因的表达催化位于选择标记基因als两侧同向frt位点间的重组反应,有效地删除了选择标记基因als。41%的经热激处理的二次转化植株发生了选择标记基因的删除,表明该系统在获得无选择标记基因的转基因植株中有很好的应用价值。     

植物铁蛋白转基因的应用

植物铁蛋白是一种铁存放蛋白,既可以储存大量的可被植物利用的铁,又能抵抗环境胁迫。利用铁蛋白的转基因研究不仅可以缓解由于铁缺乏而引起的一系列疾病,而且能提高植物对环境的耐受性,在生物治疗中具有重要意义。文章就铁蛋白的结构以及铁蛋白转基因植物在上述几个领域中的研究进展作简单的介绍。     

Cytoprotective Effect of Recombinant Human Erythropoietin Produced in Transgenic Tobacco Plants

Asialo-erythropoietin, a desialylated form of human erythropoietin (EPO) lacking hematopoietic activity, is receiving increased attention because of its broader protective effects in preclinical models of tissue injury. However, attempts to translate its protective effects into clinical practice is hampered by unavailability of suitable expression system and its costly and limit production from expensive mammalian cell-made EPO (rhuEPO^M) by enzymatic desialylation. In the current study, we took advantage of a plant-based expression system lacking sialylating capacity but possessing an ability to synthesize complex N-glycans to produce cytoprotective recombinant human asialo-rhuEPO. Transgenic tobacco plants expressing asialo-rhuEPO were generated by stably co-expressing human EPO and β1,4-galactosyltransferase (GalT) genes under the control of double CaMV 35S and glyceraldehyde-3-phosphate gene (GapC) promoters, respectively. Plant-produced asialo-rhuEPO (asialo-rhuEPO^P) was purified by immunoaffinity chromatography. Detailed N-glycan analysis using NSI-FTMS and MS/MS revealed that asialo-rhuEPO^P bears paucimannosidic, high mannose-type and complex N-glycans. In vitro cytoprotection assays showed that the asialo-rhuEPO^P (20 U/ml) provides 2-fold better cytoprotection (44%) to neuronal-like mouse neuroblastoma cells from staurosporine-induced cell death than rhuEPO^M (21%). The cytoprotective effect of the asialo-rhuEPO^P was found to be mediated by receptor-initiated phosphorylation of Janus kinase 2 (JAK2) and suppression of caspase 3 activation. Altogether, these findings demonstrate that plants are a suitable host for producing cytoprotective rhuEPO derivative. In addition, the general advantages of plant-based expression system can be exploited to address the cost and scalability issues related to its production.     

Peroxidase-Induced Wilting in Transgenic Tobacco Plants

Peroxidases are a family of isoenzymes found in all higher plants. However, little is known concerning their role in growth, development, or response to stress. Plant peroxidases are heme-containing monomeric glycoproteins that utilize either H2O2 or O2 to oxidize a wide variety of molecules. To obtain more information on possible in planta functions of peroxidases, we have used a cDNA clone for the primary isoenzyme form of peroxidase to synthesize high levels of this enzyme in transgenic plants. We were able to obtain Nicotiana tabacum and N. sylvestris transformed plants with peroxidase activity that is 10-fold higher than in wild-type plants by introducing a chimeric gene composed of the cauliflower mosaic virus 35S promoter and the tobacco anionic peroxidase cDNA. The elevated peroxidase activity was a result of increased levels of two anionic peroxidases in N. tabacum, which apparently differ in post-translational modification. Transformed plants of both species have the unique phenotype of chronic severe wilting through loss of turgor in leaves, which was initiated at the time of flowering. The peroxidase-induced wilting was shown not to be an effect of diminished water uptake through the roots, decreased conductance of water through the xylem, or increased water loss through the leaf surface or stomata. Possible explanations for the loss of turgor, and the significance of these types of experiments in studying isoenzyme families, are discussed.     

转人α-乳清白蛋白基因烟草中半胱氨酸含量的提高

将人α-乳清白蛋白基因构建到植物表达载体上,通过农杆菌介导采用叶盘法将人α-乳清白蛋白基因导入到烟草中,经过PCR和Southern blot分析表明:人α-乳清白蛋白基凶已经整合到烟草基因组中;经过RT-PCR葙GUS组织化学染色证明:人α-乳清白蛋白基因得到了表达.测定了9株转基因烟草叶片半胱氨酸含量,大部分植株有着明显的提高,最高幅度达到了318.02%,半胱氨酸含量平均提高了166.40%.     

Transgenic Tobacco Plants Low in Phytochrome A Content

Tobacco (Nicotiana tabacum) plants were transformed with a construct encoding phytochrome A (PHYA) antisense RNA. The construct inserted into the tobacco genome contained squash PHYA cDNA in an antisense orientation under the cauliflower mosaic virus 35S promoter providing for gene expression in higher plant tissues. Using immunoblot analysis and Z3-B1 antibodies against PHYA, the authors demonstrated that the PHYA content of the transgenic plants was lower than that of the wild-type plants. The studies of PHYA-dependent inhibition of hypocotyl elongation by high-intensity far-red light showed a considerable decrease in light sensitivity of the transgenic hypocotyl characteristic for aphyAmutation.     

转铁蛋白基因烟草中内源铁蛋白基因的差异表达及含铁量的变化

铁蛋白是一种由24个亚基组成的高分子贮藏蛋白质,可以储存多达4500个铁原子,在动植物及微生物的新陈代谢中起着非常重要的作用。有研究表明,外源铁蛋白的大量表达可以提高植物储存铁离子的能力。为了明确外源铁蛋白基因转化植物中内源铁蛋白基因差异表达与植物含铁量的关系,本研究在成功获得2个烟草铁蛋白基因的全长cDNA克隆NtFerl（登录号：ay083924）和NtFer2（登录号：ay141105）的基础上,以烟草品种SR-1（Nicotiana tabacum cv．Petit Havana SR-1）为受体,培育了转铁蛋白基因烟草。将双元载体pBI121中的GUS基因用来自大豆的铁蛋白基因SoyFer1（登录号：m64337）置换,利用农杆菌介导法转化烟草叶盘,获得在CaMV35S启动子驱动表达的大豆铁蛋白基因转化烟草植株。Northern杂交和Western杂交分析表明外源铁蛋白基因在转基因烟草中得到了正确表达。比较转基因烟草和非转基因烟草的内源铁蛋白基因表达强度、叶片铁含量、根系铁还原酶活性、株高和鲜重表明,外源铁蛋白基因不但促进了NtFer1的表达,提高转基因植株的储存铁的能力和根系铁还原酶活性,而且促进植株的生长速度。以上结果说明,外源铁蛋白基因转化烟草中内源铁蛋白基因的表达、铁离子的还原吸收及光和作用都得到了进一步的提高。     

Differential Expression of Endogenous Ferritin Genes and Iron Homeostasis Alteration in Transgenic Tobacco Overexpressing Soybean Ferritin Gene

For studying the effects of endogenous ferritin gene expressions (NtFer1, GenBank accession number ay083924; and NtFer2, GenBank accession number ay141105) on the iron homeostasis in transgenic tobacco (Nicotiana tabacum L.) plants expressing soybean (Glycine max Merr) ferritin gene (SoyFer1, GenBank accession number m64337), the transgenic tobacco has been produced by placing soybean ferritin cDNA cassette under the control of the CaMV 35S promoter. The exogenous gene expression was examined by both Northern- and Western-blot analyses. Comparison of endogenous ferritin gene expressions between nontransformant and transgenic tobacco plants showed that the expression of NtFer1 was increased in the leaves of transgenic tobacco plants, whereas the NtFer2 expression was unchanged. The iron concentration in the leaves of transgenic tobacco plants was about 1.5-folds higher than that in nontransformant. Enhanced growth of transgenic tobacco was observed at the early development stages, resulting in plant height and fresh weights significantly greater than those in the nontransformant. These results demonstrated that exogenous ferritin expression induced increased expression of at least one of the endogenous ferritin genes in transgenic tobacco plants by enhancing the ferric chelate reductase activity and iron transport ability of the root, and improved the rate of photosynthesis.     

铁蛋白基因表达对烟草耐低铁能力的影响

铁是植物生长发育的必需元素。由于土壤中的三价铁离子不能被植物直接利用。使一些植物经常表现出缺铁症状。为探讨利用铁蛋白基因提高植物耐低铁胁迫的作用,利用农杆菌介导法将大豆铁蛋白基因SoyFer1和内源反义铁蛋白基因NtFer2的cDNA分别导人烟草基因组,采集转基因烟草种子。对T1转基因烟草的卡那霉素抗性分析表明,整合到烟草基因组的外源基因多为单拷贝基因,也有少数为多拷贝基因。对具有卡那霉素抗性的转基因植株进行PCR检测和Northern杂交分析表明,外源基因已整合到烟草基因组中,并且得到了正确表达。将转基因株系移栽到铁离子浓度不同的培养基中生长2个月后进行比较表明,转大豆铁蛋白基因烟草株系的生长量明显高于非转基因烟草株系,而转内源反义铁蛋白基因烟草株系的生长量则明显低于非转基因烟草株系。转大豆铁蛋白基因和转内源反义铁蛋白基因烟草株系的叶绿素含量、丙二醛（MDA）含量和过氧化物酶（POD）活性等生理性状也发生了明显变化,表现为转大豆铁蛋白基因株系的叶绿素含量明显增加,POD活性明显增强,MDA含量明显降低：而转内源反义铁蛋白基因株系的叶绿素含量、POD活性和MDA含量等则表现为与转大豆铁蛋白基因株系的相反。铁蛋白过量表达提高了烟草耐低铁能力,而铁蛋白抑制表达则降低了烟草耐低铁能力。     

雪花莲凝集素基因（gna）的改造及其抗蚜性

用定点突变方法对编码雪花莲凝集素（Galanthus nivalis agglutinin,GNA)前体蛋白的DNA序列进行了改造和转基因烟草9Nicotana tabacum L.）抗蚜性的研究。结果表明,将GNA编码序列中含有的稀有密码子改造后,GNA的表达水平从占总可溶性蛋白的0.17％增加到0.25％,转基因烟草的抗蚜性也随之增强,从平均抑制桃蚜（Myzus per-sicae(Sulzer））虫口密度63.7％显地提高到71.0％。     

铁蛋白基因表达对烟草耐低铁能力的影响

铁是植物生长发育的必需元素。由于土壤中的三价铁离子不能被植物直接利用, 使一些植物经常表现出缺铁症状。为探讨利用铁蛋白基因提高植物耐低铁胁迫的作用, 利用农杆菌介导法将大豆铁蛋白基因SoyFer1和内源反义铁蛋白基因NtFer2的cDNA分别导入烟草基因组, 采集转基因烟草种子。对T1转基因烟草的卡那霉素抗性分析表明, 整合到烟草基因组的外源基因多为单拷贝基因, 也有少数为多拷贝基因。对具有卡那霉素抗性的转基因植株进行PCR检测和Northern杂交分析表明, 外源基因已整合到烟草基因组中, 并且得到了正确表达。将转基因株系移栽到铁离子浓度不同的培养基中生长2个月后进行比较表明, 转大豆铁蛋白基因烟草株系的生长量明显高于非转基因烟草株系, 而转内源反义铁蛋白基因烟草株系的生长量则明显低于非转基因烟草株系。转大豆铁蛋白基因和转内源反义铁蛋白基因烟草株系的叶绿素含量、丙二醛(MDA)含量和过氧化物酶(POD)活性等生理性状也发生了明显变化, 表现为转大豆铁蛋白基因株系的叶绿素含量明显增加, POD活性明显增强, MDA含量明显降低; 而转内源反义铁蛋白基因株系的叶绿素含量、POD活性和MDA含量等则表现为与转大豆铁蛋白基因株系的相反。铁蛋白过量表达提高了烟草耐低铁能力, 而铁蛋白抑制表达则降低了烟草耐低铁能力。     

Transgenic Tobacco Plants Expressing Bacterial Genes for Thermostable Glucanases

It is shown that bacterial genes for thermostable -glucanases are expressed retaining their activity and substrate specificity. The leader peptide of the carrot extensin exerts effective secretion of the bacterial enzymes into the intercellular space of the plant tissue. Expression of the bacterial gene for -1,3-glucanase in plant tissues alters their morphogenetic potential. Regeneration of shoots from the calli of these plant lines requires a six- to eightfold increase in cytokinin (6-BAP) concentration in comparison with the control lines and the transgenic lines expressing -1,3-1,4-glucanase. Rooting of transgenic plants expressing the bacterial gene for -1,3-glucanase occurs much faster. The transgenic plants obtained in the study are proposed as model objects for investigating the role of glucanases in plants.     

Resistance Against Pepper Severe Mosaic Potyvirus in Transgenic Tobacco Plants

The coat protein gene of the pepper severe mosaic poty-virus was introduced into tobacco plants. Several transgenic lines were assayed for virus resistance under greenhouse conditions. Line 232, showing higher levels of resistance than other transgenic plants, was studied in further detail. Upon challenge with PepSMV, R₂ descendants from this line were monitored for virus accumulation for a period of 45 days. Virus titre was lower in plants of the line 232 than in control plants throughout the experiment. At 14 days post-inoculation the transgenic plant line reached the maximum virus accumulation measured by ELISA. Those plants also showed a 1 week delay of virus accumulation by comparison with control plants. After reaching the peak at 14 days post-inoculation the virus titre in line 232 decreased with respect to control plants, until the end of the experiment. These results are compatible with the presence of an RNA-mediated resistance mechanism.     

两种凝集素基因在转基因烟草中表达的研究

构建了含尾穗苋凝集素基因(ACA)的cDNA序列和改造后的雪花莲凝集素基因(GNA)的植物表达载体pBACG。在此表达载体中,ACA和GNA基因的表达分别由35S启动子和CoYMV启动子控制。通过农杆菌介导,将ACA和GNA基因转化到烟草中,经卡那霉素筛选获得60株转化再生植株。对PCR检测呈阳性的50株植株进行接蚜虫实验,结果表明,其平均抑虫率达83．9％。Southern blotting分析表明,ACA和GNA基因都已整合到烟草基因组中。Western blotting结果显示这两个基因在不同植株中都可表达其相应的蛋白质,但表达水平不同。部分Western blotting分析呈阳性植株的抗蚜性与T0代相近,达85．3％,说明这两个基因的抗蚜功能可以稳定遗传。     

抗烟青虫转基因烟草的培育

烟青虫属鳞翅且(Lpidoptera)昆虫。前人研究表明,苏云金杆菌(Bacillus thuringiensis)中的Bt毒蛋白对其具有很强的毒杀作用。设法将Bt基因导入到烟草中,是防治这类虫害的一种有效途径。80年代后期以来,为了提高Bt基因在植物中的表达水平,在编码区密码子的优化、编码顺序的改进和高效启动子的选配方面．都有了很快的发展。有些经过部分改进或人工全合成的Bt基因,还被先后导入到番茄〔1.2〕、烟草〔2-4〕、棉花〔5.6〕、玉米〔7〕、水稻〔8〕等重要作物中。迄1995年止．在美国获准可供商业用的Bt毒蛋白转基因作物已有槔花、玉米和马铃薯等〔9〕。在烟草中迄今未见有Bt毒蛋白转基因株达到生产实用水平的报道。本实验试图通过农杆菌介导法,将密码子经过优化的Bt基因cryIA(b)及cryIA?〔10〕叫导入离体培养的烟草叶片,然后使之再生,形成转基因植株,再从其后代中选育出既保留原品种优良农艺性状,又具有对烟青虫稳定抗性的转基因株,以期提高该品种的稳产性,降低杀虫农药成本。保护烟田的良好生态环境。     

Recombinant Protein Expression Plasmids Optimized for Industrial E. coli Fermentation and Plant Systems Produce Biologically Active Human Insulin-like Growth Factor-1 in Transgenic Rice and Tobacco Plants

Human insulin-like growth factor-1 (hIGF-1) is a growth factor with clinical significance in medicine. The therapeutic potential of recombinant hIGF-1 (rthIGF-1) stems from the fact that hIGF-1 resembles insulin in many aspects of physiology. The expression of hIGF-1 in transgenic tobacco and rice plants using different expression cassettes is reported here. In the present study, two coding sequences were tested, one with the original human sequence, but partially optimized for expression in E. coli and the other with a plant-codon-optimized sequence that was expected to give a higher level of expression in plant systems. Three different hIGF-1 recombinant expression constructs were generated. All expression constructs utilized the maize ubiquitin 1 promoter with or without a signal sequence. Analyses conducted using a hIGF-1 specific ELISA kit showed all transgenic plants produced hIGF-1 and the accumulated hIGF-1 increased from the E. coli codon bias to higher levels when the hIGF-1 coding sequence was codon-optimized to match that of the maize zeamatin protein – the most transcribed gene in maize endosperm suspension cells. Further analyses that compared the functionality of the bacterial signal peptide Lam B in plants showed that this leader peptide led to lower expression levels when compared to transgenic plants that did not contain this sequence. This indicated that this expression construct was functional without removal of the bacterial signal sequence. The maize ubiquitin 1 promoter was found to be more active in rice plants than tobacco plants indicating that in this case, there was a class preference that was biased towards a monocot host. Biological analyses conducted using protein extracts from transgenic plants showed that the rthIGF-1 was effective in stimulating the in vitro growth and proliferation of human SH-SY5Y neuroblastoma cells. This indicated that the plant-produced rthIGF-1 was stable and biologically active. As some plants have been reported to express an endogenous insulin-like protein, we also looked for any effect of the human growth factor in transgenic plants, but no developmental or morphological differences with wild type tobacco or rice plants were detected. Since insulin and hIGF-1 share some overlapping roles, hIGF-1 may become a substitute therapeutic agent in subjects with certain defects in their insulin receptor signaling. Hence, if the full beneficial potential of rthIGF-1 is achieved, it is expected that in the future the demand will likely increase significantly.     

The Plant OncogenerolDStimulates Flowering in Transgenic Tobacco Plants

TheAgrobacterium rhizogenesT-DNA oncogenerolDunder the control of its own 5′ regulatory region was transferred to day-neutral tobacco plants. The main trait induced byrolDin transgenic plants is a striking precocity in flower setting and a strong enhancement of the flowering potential. InrolDplants, early flowering is followed by the very rapid growth of numerous lateral inflorescences. The analysis of several morphological and histological parameters suggests that some characteristic morphological abnormalities observed inrolDplants can be accounted for by their early reproductive phase transition and points to the involvement in the transition of a greater portion of the plant body than is the case for untransformed tobacco. Thein vitromorphogenic potential of tissues fromrolDplants was also tested. Superficial thin cell layer explants fromrolDplants show an earlier and much enhanced flower organogenesis, compared to controls, both on flowering and on hormone-free medium.     

Expression of a Thermostable Bacterial Cellulase in Transgenic Tobacco Plants

The bacterial gene of the thermostable endo--1,4-glucanase (cellulase) was shown to retain its activity and substrate specificity when expressed in transgenic tobacco plants. The leader peptide of the carrot extensin was efficient in transferring the bacterial enzyme into the apoplast. The expression of the bacterial cellulase gene leads to changes in the plant tissue morphology. In the transgenic plant lines, regeneration of primary shoots from callus occurred at the three to five times higher cytokinin (6-BAP) concentration than in control plants. The transgenic plants that expressed the bacterial gene exhibited increased bushiness and altered leaf shape. The transgenic plants developed can be used as models for studying the cellulases role and function in plants.