Effects on Fertility in Transgenic Tobacco by Localized Expression of ipt Gene

The isopenteryl transferase (ipt) gene from Agrobacterium tumefaciens (Smith et Townsend) Conn was driven under the tobacco TA29 promoter and introduced into tobacco ( Nicotiana tabacum L.) plants by A. tumefaciens mediated transformation. PCR and Southern blot analysis confirmed that the ipt gene has integrated into the genomes of tobacco plants. The expression pattern of this chimeric TA29-ipt gene in the transgenic plants was studied, and the endogenous cytokinin level in different organs was assayed by ELISA method. The results showed that the cytokinin content in the androecium of transgenic plants increased 3-4 times as compared with the control, and some changes of the fertility of the TA29-ipt transgenic plants have been observed.     

Anther-specific expression of ipt gene in transgenic tobacco and its effect on plant development

Isopentenyl transferase (ipt) gene from Agrobacterium tumefaciens T-DNA was placed under the control of a TA29 promoter which expresses specifically in anther. The chimeric TA29-ipt gene was transferred to tobacco plants. During flowering, mRNA of the ipt gene in the anthers of the transgenic plants accumulated and the level of iPA + iPs increased 3–4-fold in the leaves, petals, pistils, and stamens compared with those in the wild type plants. This cytokinin increase affected various aspects in development indicating that the alterations of endogenous cytokinin level by using anther-specific expression of the TA29-ipt gene affected morphology, floral organ systems and reproductivity of the transgenic plants.     

ipt基因定位表达对转基因烟草育性的影响

杂种优势是生物界的一种普遍现象。作物杂种优势的利用是培育高产、抗逆、优质新品种的重要手段之一。然而 ,常规育种技术获得配套三系的难度很大 ,由此限制了杂种优势利用的发展。近年来应用转基因技术创造雄性不育植株已有不少报道[1- 5] 。有研究表明 ,自然突变的雄性不育株     

水稻谷蛋白启动子驱动下的ipt基因在转基因烟草中的表达

利用农杆菌系统介导 ,采用叶盘转化法 ,将在水稻谷蛋白启动子驱动下的外源ipt基因导入烟草植株中 ,经过抗生素筛选、PCR与测序分析检测出转基因植株。成熟的转基因烟草种子经过ELISA细胞分裂素试剂盒检测 ,发现iPAs含量为对照的 2 .43倍 ,此外 ,种子的重量也增加了 7.8%。     

ipt与PAPⅡ基因在烟草中共表达减轻PAPⅡ细胞毒性的初步研究

利用农杆菌介导方法,分别将PAPⅡ单基因、PAPⅡ基因和异戊烯基转移酶基因(ipt)共表达的双基因(PAPII-pt)导入烟草品种K326叶细胞中,半定量RT-PCR分析了转基因植株中PAPⅡ、ipt和核糖体蛋白大亚基基因(RPL3A)的表达,并进行了TMV攻毒实验.结果表明:双基因PAPⅡ-ipt对烟草的转化频率高达...     

Phenotypic alterations and component analysis of seed yield in transgenic Brassica napus plants expressing the tzs gene

Cytokinins play an important role in plant development. We investigated the possibility that the nopaline Ti plasmid gene ( tzs ) from Agrobacterium tumefaciens could encode a protein able to participate in plant cytokinin production and lead to alterations in plant phenotype as a result of the expression of endogenous tzs . tzs was placed under the control of a heat‐inducible promoter from the Zea mays hsp70 gene. The expression of this fused gene was examined in transgenic Brassica napus plants. The tzs gene, which encodes the enzyme dimethylallyl transferase, was used as a cytokinin biosynthetic gene. The expression of the tzs gene was monitored by RNA hybridization and analysis of cytokinin content. Overproduction of cytokinin was observed even when the plants had not been heat‐shocked, and the plants displayed a reduced root system, increased height and branching, and delayed flowering. In addition, a significant increase in seed yield was observed in the transgenic plants, accounted for by increased number of seeds per silique and seed weight. The results suggest that increased levels of cytokinins, through the expression of tzs , are correlated with growth rather than with differentiation processes.     

Accumulation of a Brazil nut albumin in seeds of transgenic canola results in enhanced levels of seed protein methionine

We have increased the methionine content of the seed proteins of a commercial winter variety of canola by expressing a chimeric gene encoding a methionine-rich seed protein from Brazil nut in the seeds of transgenic plants. Transgenic canola seeds accumulate the heterologous methionine-rich protein at levels which range from 1.7% to 4.0% of the total seed protein and contain up to 33% more methionine. The precursor of the methionine-rich protein is processed correctly in the seeds, resulting in the appearance of the mature protein in the 2S protein fraction. The 2S methionine-rich protein accumulates in the transgenic seeds at the same time in development as the canola 11S seed proteins and disappears rapidly upon germination of the seed. The increase in methionine in the canola seed proteins should increase the value of canola meal which is used in animal feed formulations.     

Cytokinin vectors mediate marker-free and backbone-free plant transformation

Conventional Agrobacterium-mediated transformation methods rely on complex and genotype-specific tissue culture media for selection, proliferation, and regeneration of genetically modified cells. Resulting transgenic plants may not only contain selectable marker genes but also carry fragments of the vector backbone. Here, we describe a new method for the production of transgenic plants that lack such foreign DNA. This method employs vectors containing the bacterial isopentenyltransferase (ipt) gene as backbone integration marker. Agrobacterium strains carrying the resulting ipt gene-containing "cytokinin" vectors were used to infect explants of various Solanaceous plant species as well as canola (Brassica napus). Upon transfer to hormone-free media, 1.8% to 9.9% of the infected explants produced shoots that contained a marker-free T-DNA while lacking the backbone integration marker. These frequencies often equal or exceed those for backbone-free conventional transformation.     

Elevated cytokinin content in ipt transgenic creeping bentgrass promotes drought tolerance through regulating metabolite accumulation

Increased endogenous plant cytokinin (CK) content through transformation with an adenine isopentyl transferase (ipt) gene has been associated with improved plant drought tolerance. The objective of this study is to determine metabolic changes associated with elevated CK production in ipt transgenic creeping bentgrass (Agrostis stolonifera L.) with improved drought tolerance. Null transformants (NTs) and plants transformed with ipt controlled by a stress- or senescence-activated promoter (SAG12-ipt) were exposed to well-watered conditions or drought stress by withholding irrigation in an environmental growth chamber. Physiological analysis confirmed that the SAG12-ipt line (S41) had improved drought tolerance compared with the NT plants. Specific metabolite changes over the course of drought stress and differential accumulation of metabolites in SAG12-ipt plants compared with NT plants at the same level of leaf relative water content (47% RWC) were identified using gas chromatography-mass spectroscopy. The metabolite profiling analysis detected 45 metabolites differentially accumulated in response to ipt expression or drought stress, which included amino acids, carbohydrates, organic acids, and organic alcohols. The enhanced drought tolerance of SAG12-ipt plants was associated with the maintenance of accumulation of several metabolites, particularly amino acids (proline, γ-aminobutyric acid, alanine, and glycine) carbohydrates (sucrose, fructose, maltose, and ribose), and organic acids that are mainly involved in the citric acid cycle. The accumulation of these metabolites could contribute to improved drought tolerance due to their roles in the stress response pathways such as stress signalling, osmotic adjustment, and respiration for energy production.     

Expression of the S receptor kinase in self-compatible Brassica napus cv. Westar leads to the allele-specific rejection of self-incompatible Brassica napus pollen

Expression of an S receptor kinase (SRK910) transgene in the self-compatible Brassica napus cv. Westar conferred on the transgenic pistil the ability to reject pollen from the self-incompatible Brassica napus W1 line, which carries the S910 allele. In one of the SRK transgenic lines, 1C, virtually no seeds were produced when the transgenic pistils were pollinated with W1 pollen (Mean number of seeds per pod = 1.22). This response was specific to the W1 pollen since pollen from a different self-incompatible Brassica napus line (T2) and self-pollinations were fully compatible. Westar plants expressing an S locus glycoprotein transgene (SLG910) did not show any self-incompatibility response towards W1 pollen. Transgenic Westar plants resulting from crosses between the 1C SRK transgenic line and three SLG910 transgenic lines were also tested for rejection of W1 pollen. The additional expression of the SLG910 transgene in the SRK910 transgenic plants did not cause any significant further reduction in seed production (Mean seeds/pod = 1.04) or have any detectable effects on the number of pollen grains that adhered to the pistil. Thus, while the allele-specific SLG gene was previously reported to have an enhancing effect on the self-incompatibility response, no evidence for such a role was found in this study.     

Antioxidant protection during ageing and senescence in chloroplasts of tobacco with modulated life span

We studied changes in antioxidant protection during ageing and senescence in chloroplasts of tobacco (Nicotiana tabacum L., cv. Wisconsin) with introduced SAG(12) promoter fused with ipt gene for cytokinin synthesis (transgenic plants with increased levels of cytokinins, SAG) or without it (control). Old leaves of SAG plants as well as their chloroplasts maintained higher physiological parameters compared to controls; accordingly, we concluded that their ageing was diverted due to increased cytokinin content. The chloroplast antioxidant protection did not decrease as well. Although antioxidant protection usually decreased in whole leaves of senescing control plants, ascorbate peroxidase (APX) and dehydroascorbate reductase (DHAR) activity, which maintained the high redox state of ascorbate, increased in chloroplasts of old control leaves.     

The Role of Cytokinin Biosynthetic Gene in Regulating the Expression of a Class of Pathogenesis-Related Protein Genes in Tobacco Plants

The expression characteristics of a class of pathogenesis-related protein (PR) genes, namely basic chitinase, β-1, 3-glucanase, osmotin and extensin, were studied in tobacco (Nicotiana tabacum cv. Wisconsin 38) plants. RNA blot hybridization showed that these four genes were regulated in a developmental and organ-specific manner in tobacco. In the transgenic fascicular shoots which contained the active cytokinin biosynthetic gene (ipt gene) from Agrobacterium tumefaciens, the expressions of these four genes were co-regulated by overproduction of endogenous cytokinins and vector effect. Cytokinins reduced the expressions while vector effect induced the expressions of these four genes. Heat shock also de creased the steady-state levels of the four RNAs. These data suggest a complex regulation of PR genes.     

Cell Specific,Cross-Species Expression of Myrosinases in Brassica Napus,Arabidopsis Thaliana and Nicotiana Tabacum

A prototypical characteristic of the Brassicaceae is the presence of the myrosinase-glucosinolate system. Myrosinase, the only known S-glycosidase in plants, degrades glucosinolates, thereby initiating the formation of isothiocyanates, nitriles and other reactive products with biological activities. We have used myrosinase gene promoters from Brassica napus and Arabidopsis thaliana fused to the beta -glucuronidase (GUS) reporter gene and introduced into Arabidopsis thaliana, Brassica napus and/or Nicotiana tabacum plants to compare and determine the cell types expressing the myrosinase genes and the GUS expression regulated by these promoters. The A. thaliana TGG1 promoter directs expression to guard cells and phloem myrosin cell idioblasts of transgenic A. thaliana plants. Expression from the same promoter construct in transgenic tobacco plants lacking the myrosinase enzyme system also directs expression to guard cells. The B. napus Myr1.Bn1 promoter directs a cell specific expression to idioblast myrosin cells of immature and mature seeds and myrosin cells of phloem of B. napus. In A. thaliana the B. napus promoter directs expression to guard cells similar to the expression pattern of TGG1. The Myr1.Bn1 signal peptide targets the gene product to the reticular myrosin grains of myrosin cells. Our results indicate that myrosinase gene promoters from Brassicaceae direct cell, organ and developmental specific expression in B. napus, A. thaliana and N. tabacum.     

Promoter regions of cysteine endopeptidase genes from legumes confer germination-specific expression in transgenic tobacco seeds

Cysteine endopeptidases, SH-EP from Vigna mungo and EP-C1 from Phaseolus vulgaris, act to degrade seed storage protein during seed germination. Using transgenic tobacco plants, expression of SH-EP and promoter activity of the EP-C1 gene were analyzed in transgenic tobacco plants. The promoters of the two genes in tobacco seeds showed germination-specific activation, although post-translational processing of SH-EP and regulatory regions of promoter of the gene for EP-C1 were found to differ between leguminous seeds and transgenic tobacco seeds.     

6-BA拮抗脱落酸缓解渗透胁迫对种子萌发的抑制

细胞分裂素促进细胞分裂、芽的分化,拮抗脱落酸抑制的种子萌发,而细胞分裂素合成基因Ipt84在种子萌发过程中发挥重要的作用。本文分别用120mmol·L-1 NaCl和240mmol·L-1 甘露醇模拟盐和干旱胁迫处理拟南芥种子,探讨6一BA拮抗ABA对其抑制种子萌发和萌发后生长的影响。结果表明,细胞分裂素合成相关突变体ipt6-1、ipt6-2、ipt8．1和ipt8-2的种子萌发和生长可被NaCl和甘露醇显著抑制;而ABA合成相关突变体aba2-1对相同浓度NaCl和甘露醇的处理表现相对不敏感。进一步研究发现添加外源6一BA可恢复ipt6-1、ipt6-2、ipt8-1和ipt8—2的相关敏感表型,并且随6-BA浓度的增加,恢复效果也愈趋明显。     

超量表达IPT和KN1基因对转基因烟草生长发育的影响

为了比较异戊烯转移酶基因IPT和玉米homeobox基因KNI超量表达对植物生长发育的影响,将35S：：IPT和35S：：KNI分别导入烟草。观察发现,过量表达IPT和KNI基因对植株再生频率、形态、生长周期和顶端优势等方面的影响均相似,但在生根和开花结籽方面,35S：：IPT转基因植物所受影响更显著。细胞分裂素含量检测表明,35S：：IPT转基因植物叶片中细胞分裂素的含量高于35S：：KNI转基因植物。