Effects of overproduction of tobacco MnSOD in maize chloroplasts on foliar tolerance to cold and oxidative stress

Transgenic maize plants have been generated by particle gun bombardment that overproduce a Nicotiana plumbaginifolia L. manganese superoxide dismutase (MnSOD). To target this mitochondrial enzyme into chloroplasts, the mature MnSOD-coding sequence was fused to a chloroplast transit peptide from a pea ribulose-1,5-bisphosphate carboxylase gene, whereas expression of the chimeric gene was driven by the CaMB 35S promoter. Transgenic MnSOD activity contributed to 20% of the total SOD activity. The presence of transgenic MnSOD had clear effects on foliar tolerance to chilling and oxidative stress. The results suggest that overproduction of MnSOD in the chloroplasts increases the antioxidant capacity of the leaves.     

A promoter from sugarcane bacilliform badnavirus drives transgene expression in banana and other monocot and dicot plants

A 1369 bp DNA fragment (Sc) was isolated from a full-length clone of sugarcane bacilliform badnavirus (ScBV) and was shown to have promoter activity in transient expression assays using monocot (banana, maize, millet and sorghum) and dicot plant species (tobacco, sunflower, canola and Nicotiana benthamiana). This promoter was also tested for stable expression in transgenic banana and tobacco plants. These experiments showed that this promoter could drive high-level expression of the -glucuronidase (GUS) reporter gene in most plant cells. The expression level was comparable to the maize ubiquitin promoter in standardised transient assays in maize. In transgenic banana plants the expression levels were variable for different transgenic lines but was generally comparable with the activities of both the maize ubiquitin promoter and the enhanced cauliflower mosaic virus (CaMV) 35S promoter. The Sc promoter appears to express in a near-constitutive manner in transgenic banana and tobacco plants. The promoter from sugarcane bacilliform virus represents a useful tool for the high-level expression of foreign genes in both monocot and dicot transgenic plants that could be used similarly to the CaMV 35S or maize polyubiquitin promoter.     

A modifiedEscherichia coli chaperonin (groEL) polypeptide synthesized in tobacco and targeted to the chloroplasts

The coding region for theEscherichia coli groEL (chaperonin-60) polypeptide was fused downstream of a pea rubisco small subunit transit peptide coding sequence under the control of a tandem 35S CaMV promoter. Transgenic tobacco plants (Nicotiana tabacum cv. Xanthi) containing this modifiedgroEL gene were produced. The modified groEL polypeptide was correctly imported into chloroplasts and accumulated to high or low levels in different plants. The majority of the modified groEL polypeptide was processed correctly to the mature form within the chloroplasts. Approximately 20% of the imported polypeptides retained a portion of the N-terminal transit peptide (TPgroEL). Both groEL and TPgroEL polypeptides assembled into tetradecameric species in the chloroplasts. In plants accumulating high levels of these products, the majority of the plant chaperonin-60 polypeptides in the chloroplast were present in novel hybrid tetradecameric species containing both bacterial and plant chaperonin-60 polypeptides. In plants accumulating low levels of groEL, the predominant species present appeared to be authentic plant cpn60₁₄ and authentic bacterial groEL₁₄. The growth and development of transgenic and control tobacco plants were indistinguishable.Abbreviations cpn60 chaperonin-60 - cpn10 chaperonin-10 - hsp heat shock protein - rubisco ribulose-1,5-bisphosphate carboxylase-oxygenase - ssu small subunit - spp stromal processing peptidase - SDS sodium dodecyl sulfate - PAGE polyacrylamide gel electrophoresis     

Overproduction of Arabidopsis thaliana FeSOD confers oxidative stress tolerance to transgenic maize.

Transgenic maize (Zea mays L.) plants have been generated by particle gun bombardment that overproduce an Arabidopsis thaliana iron superoxide dismutase (FeSOD). To target this enzyme into chloroplasts, the mature Fesod coding sequence was fused to a chloroplast transit peptide from a pea ribulose-1,5-bisphosphate carboxylase gene. Expression of the chimeric gene was driven by the CaMV 35S promoter. Growth characteristics and in vitro oxidative stress tolerance of transgenic lines grown in control and chilling temperatures were evaluated. The transgenic line with the highest transgenic FeSOD activities had enhanced tolerance toward methyl viologen and had increased growth rates.     

Overexpression of the Arabidopsis thaliana MinD1 gene alters chloroplast size and number in transgenic tobacco plants

The Arabidopsis thaliana (L.) Heynh. minD gene (AtMinD1) was isolated and constitutively expressed in tobacco (Nicotiana tabacum L.) plants using the CaMV 35S promoter. Confocal and electron-microscopic analysis of the AtMinD1 transgenic tobacco lines revealed that the chloroplasts were abnormally large and fewer in number compared with wild-type tobacco plants. The abnormal chloroplasts were less prevalent in guard cells than in mesophyll cells. Chloroplast and nuclear gene expression was not significantly different in AtMinD1-overexpressing plants relative to wild-type tobacco plants. Chloroplast DNA copy number was not affected, based on the relative level of the rbcL gene in transgenic plants. Transgenic tobacco plants constitutively overexpressing AtMinD1 were completely normal phenotypically with respect to growth and development, and also displayed normal photosynthetic electron transport rates. These results show that the Arabidopsis MinD1 gene also functions in a heterologous system and confirm the role of the MinD protein in regulation of chloroplast division.     

A strong constitutive gene expression system derived from <Emphasis Type="Italic">ibAGP1</Emphasis> promoter and its transit peptide

To develop a strong constitutive gene expression system, the activities of ibAGP1 promoter and its transit peptide were investigated using transgenic Arabidopsis and a GUS reporter gene. The ibAGP1 promoter directed GUS expression in almost entire tissues including rosette leaf, inflorescence stem, inflorescence, cauline leaf and root, suggesting that the ibAGP1 promoter is a constitutive promoter. GUS expression mediated by ibAGP1 promoter was weaker than that by CaMV35S promoter in all tissue types, but when GUS protein was targeted to plastids with the aid of the ibAGP1 transit peptide, GUS levels increased to higher levels in lamina, petiole and cauline leaf compared to those produced by CaMV35S promoter. The enhancing effect of ibAGP1 transit peptide on the accumulation of foreign protein was tissue-specific; accumulation was high in lamina and inflorescence, but low in root and primary inflorescence stem. The transit peptide effect in the leaves was maintained highly regardless of developmental stages of plants. The ibAGP1 promoter and its transit peptide also directed strong GUS gene expression in transiently expressed tobacco leaves. These results suggest that the ibAGP1 promoter and its transit peptide are a strong constitutive foreign gene expression system for transgenesis of dicot plants.     

Modulation of cysteine biosynthesis in chloroplasts of transgenic tobacco overexpressing cysteine synthase [O-acetylserine(thiol)-lyase].

Cysteine synthase [O-acetyl-L-serine(thiol)-lyase, EC 4.2.99.8] (CSase), which is responsible for the terminal step of cysteine biosynthesis, catalyzes the formation of L-cysteine from O-acetyl-L-serine (OAS) and hydrogen sulfide. Three T-DNA vectors carrying a spinach (Spinacia oleracea) cytoplasmic CSase A cDNA (K. Saito, N. Miura, M. Yamazaki, H. Horano, I. Murakoshi [1992] Proc Natl Acad Sci USA 89: 8078-8082) were constructed as follows: pCSK3F, cDNA driven by the cauliflower mosaic virus (CaMV) 35S RNA promoter with a sense orientation; pCSK3R, cDNA driven by the CaMV 355 promoter with an antisense orientation; pCSK4F, cDNA fused with the sequence for chloroplast-targeting transit peptide of pea ribulose-1,5-biphosphate carboxylase small subunit driven by the CaMV 35S promoter with a sense orientation. These chimeric genes were transferred into tobacco (Nicotiana tabacum) with Agrobacterium-mediated transformation, and self-fertilized progeny were obtained. CSase activities in cell-free extracts of pCSK3F and pCSK4F transformants were 2- to 3-fold higher than those of control and pCSK3R plants. CSase activities in chloroplasts of pCSK4F transformants were severalfold higher than those of control and pCSK3F plants, indicating that the foreign CSase protein is transported and accumulated in a functionally active form in chloroplasts of pCSK4F plants. Isolated chloroplasts of a pCSK4F transformant had a more pronounced ability to form cysteine in response to addition of OAS and sulfur compounds than those of a control plant. In particular, feeding of OAS and sulfite resulted in enhanced cysteine formation, which required photoreduction of sulfite in chloroplasts. The enhanced cysteine formation in a pCSK4F plant responding to sulfite was also observed in leaf discs. In addition, these leaf discs were partially resistant to sulfite toxicity, possibly due to metabolic detoxification of sulfite by fixing into cysteine. These results suggested that overaccumulated foreign CSase in chloroplasts could modulate biosynthetic flow of cysteine in response to sulfur stress.     

Improved metabolic action of a bacterial lysine decarboxylase gene in tobacco hairy root cultures by its fusion to arbcS transit peptide coding sequence

The gene of a bacterial lysine decarboxylase (ldc) fused to arbcS transit peptide coding sequence (tp), and under the control of the CaMV 35S promoter, was expressed in hairy root cultures ofNicotiana tabacum. The fusion of theldc to the targeting signal sequence improved the performance of the bacterial gene in the plant cells in many respects. Nearly all transgenic hairy root cultures harbouring the35S-tp-ldc gene contained distinctly higher lysine decarboxylase activity (from 1.5 to 30 pkat LDC per mg protein) than those which had been transformed with constructs in which the gene had been directly cloned behind the CaMV 35S promoter. The higher enzyme activity led to the accumulation of up to 0.7% cadaverine on a dry mass basis. In addition, part of the cadaverine pool was used for increased biosynthesis of anabasine, an alkaloid which was hardly detectable in control cultures. The best line contained anabasine levels of 0.5% dry mass, which could further be enhanced by feeding of lysine.     

Construction of phosphomannose isomerase (PMI) transformation vectors and evaluation of the effectiveness of vectors in tobacco (Nicotiana tabacum L)

Phosphomannose isomerase (pmi) gene isolated from Escherichia coli allows transgenic plants carrying it to convert mannose-6- phosphate (from mannose), a carbon source that could not be naturally utilized by plants into fructose-6-phosphate which can be utilized by plants as a carbon source. This conversion ability provides energy source to allow the transformed cells to survive on the medium containing mannose. In this study, four transformation vectors carrying the pmi gene alone or in combination with the β-glucuronidase (gusA) gene were constructed and driven by either the maize ubiquitin (Ubi1) or the cauliflower mosaic virus (CaMV35S) promoter. Restriction digestion, PCR amplification and sequencing were carried out to ensure sequence integrity and orientation. Tobacco was used as a model system to study the effectiveness of the constructs and selection system. PMI11G and pMI3G, which carry gusA gene, were used to study the gene transient expression in tobacco. PMI3 construct, which only carries the pmi gene driven by CaMV35S promoter, was stably transformed into tobacco using biolistics after selection on 30 g 1(-1) mannose without sucrose. Transgenic plants were verified using PCR analysis. ABBREVIATIONS: PMI/pmi - Phosphomannose isomerase, Ubi1 - Maize ubiquitin promoter, CaMV35S - Cauliflower mosaic virus 35S promoter, gusA - β-glucuronidase GUS reporter gene.     

Promoters for pregenomic RNA of banana streak badnavirus are active for transgene expression in monocot and dicot plants

Two putative promoters from Australian banana streak badnavirus (BSV) isolates were analysed for activity in different plant species. In transient expression systems the My (2105 bp) and Cv (1322 bp) fragments were both shown to have promoter activity in a wide range of plant species including monocots (maize, barley, banana, millet, wheat, sorghum), dicots (tobacco, canola, sunflower, Nicotiana benthamiana, tipu tree), gymnosperm (Pinus radiata) and fern (Nephrolepis cordifolia). Evaluation of the My and Cv promoters in transgenic sugarcane, banana and tobacco plants demonstrated that these promoters could drive high-level expression of either the green fluorescent protein (GFP) or the -glucuronidase (GUS) reporter gene (uidA) in vegetative plant cells. In transgenic sugarcane plants harbouring the Cv promoter, GFP expression levels were comparable or higher (up to 1.06% of total soluble leaf protein as GFP) than those of plants containing the maize ubiquitin promoter (up to 0.34% of total soluble leaf protein). GUS activities in transgenic in vitro-grown banana plants containing the My promoter were up to seven-fold stronger in leaf tissue and up to four-fold stronger in root and corm tissue than in plants harbouring the maize ubiquitin promoter. The Cv promoter showed activities that were similar to the maize ubiquitin promoter in in vitro-grown banana plants, but was significantly reduced in larger glasshouse-grown plants. In transgenic in vitro-grown tobacco plants, the My promoter reached activities close to those of the 35S promoter of cauliflower mosaic virus (CaMV), while the Cv promoter was about half as active as the CaMV 35S promoter. The BSV promoters for pregenomic RNA represent useful tools for the high-level expression of foreign genes in transgenic monocots.     

Targeted overexpression of the Escherichia coli MinC protein in higher plants results in abnormal chloroplasts

Higher plant chloroplast division involves some of the same types of proteins that are required in prokaryotic cell division. These include two of the three Min proteins, MinD and MinE, encoded by the min operon in bacteria. Noticeably absent from annotated sequences from higher plants is a MinC homologue. A higher plant functional MinC homologue that would interfere with FtsZ polymerization, has yet to be identified. We sought to determine whether expression of the bacterial MinC in higher plants could affect chloroplast division. The Escherichia coli minC (EcMinC) gene was isolated and inserted behind the Arabidopsis thaliana RbcS transit peptide sequence for chloroplast targeting. This TP-EcMinC gene driven by the CaMV 35S² constitutive promoter was then transformed into tobacco (Nicotiana tabacum L.). Abnormally large chloroplasts were observed in the transgenic plants suggesting that overexpression of the E. coli MinC perturbed higher plant chloroplast division.     

The Commelina yellow mottle virus promoter is a strong promoter in vascular and reproductive tissues.

Commelina yellow mottle virus (CoYMV) is a double-stranded DNA virus that infects the monocot Commelina diffusa. Although CoYMV and cauliflower mosaic virus (CaMV; another double-stranded DNA virus) probably replicate by a similar mechanism, the particle morphology and host range of CoYMV place it in a distinct group. We present evidence that a prompter fragment isolated from CoYMV confers a tissue-specific pattern of expression that is different from that conferred by the CaMV 35S promoter. When the CoYMV promoter is used to drive expression of the beta-glucuronidase reporter gene in stably transformed tobacco plants, beta-glucuronidase activity occurs primarily in the phloem, the phloem-associated cells, and the axial parenchyma of roots, stems, leaves, and flowers. Activity is also detected throughout the anther, with highest activity in the tapetum. In contrast, the CaMV 35S promoter is active in most cell types. The CoYMV promoter is a strong promoter, and when the activity of the CoYMV promoter is compared with that of a duplicated CaMV 35S promoter, it is 30% as active in tobacco suspension cells and up to 25% as active in maize suspension cells. These properties of the CoYMV promoter make it potentially useful for high-level expression of engineered genes in vascular cells.     

伪狂犬病毒gD基因在转基因烟草中的表达

将猪伪狂犬病毒 (pseudorabiesvirus ,PRV)最主要的保护性抗原基因gD完整编码区亚克隆到修饰的植物双元表达载体pBI 35SL中 ,使其置于强启动子CaMV 35S doubleenhancer TEV 5′UTR下游 ,构建的转基因植物双元表达质粒经农杆菌介导转化烟草 .PCR检测叶片筛选阳性植株 ,Southern杂交进一步证实gD已整合到转基因烟草基因组中 .固相酶联斑点试验和Western印迹表明 ,gD在烟草获得正确表达并具有抗原性     

Comparing constitutive promoters using CAT activity in transgenic tobacco plants

The effectiveness of different promoters for use in transgenic tobacco was compared using a reporter gene expressing chloramphenicol acetyl transferase (CAT). Plasmids with CAT gene controlled by cauliflower mosaic virus 35S (CaMV 35S), rice actin1 (Ract1) and tobacco polyubiquitin (Tubi.u4) promoters were delivered into tobacco plants by Agrobacterium-mediated transformation. The Ract1 promoter, previously shown to be a strong promoter in rice and other monocots, failed to promote strong expression in tobacco. CAT expression was greatest from the vector carrying Tubi.u4 with a 5'UTR and leader intron without a ubiquitin monomer. In transgenic plants harboring the Tubi.u4 promoter, CAT expression was approximately twice that of the CaMV 35S promoter. Our results suggest that foreign genes under the control of a ubiquitin promoter devoid of monomer will be useful for high-level gene expression in tobacco.     

Assessment of the utility of the tomato fruit-specific E8 promoter for driving vaccine antigen expression

To assess the utility of the tomato fruit-specific E8 gene's promoter for driving vaccine antigen expression in plant, the 2.2 kb and 1.1 kb E8 promoters were isolated and sequenced from Lycopersicon esculentum cv. Jinfeng #1. The 1.1 kb promoter was fused to vaccine antigen HBsAg M gene for the transfer to Nicotiana tabacum, and the CaMV 35S promoter was used for comparison. Cholera toxin B (ctb) gene under the control of the 1.1 kb promoter was transformed into both N. tabacum and L. esculentum. Southern blot hybridization confirmed the stable integration of the target genes into the tomato and tobacco genomes. ELISA assay showed that the expression product of HBsAg M gene under the control of the 1.1 kb E8 promoter could not be detected in transgenic tobacco tissues such as leaves, flowers, and seeds. In contrast, the expression of HBsAg M gene driven by CaMV 35S promoter could be detected in transgenic tobacco. ELISA assay for CTB proved that the 1.1 kb E8 promoter was able to direct the expression of exotic gene in ripe fruits of transgenic tomato, but expression was absent in leaf, flower, and unripe fruit of tomato, and CTB protein was not detected in transgenic tobacco tissues such as leaves, flowers, and seeds when the gene was under the control of the 1.1 kb E8 promoter. The results indicated that the E8 promoter acted not only in an organ-specific, but also in a species-specific fashion in plant transformation.     

Functional expression of the Erwinia uredovora carotenoid biosynthesis gene crtl in transgenic plants showing an increase of β-carotene biosynthesis activity and resistance to the bleaching herbicide norflurazon

Among the enzymes involved in carotenoid biosynthesis, phytoene desaturase is considered to be a rate-limiting enzyme in this pathway and is also the target of many bleaching herbicides. This enzyme shows diversity concerning its function and amino acid homology among various organisms. The phytoene desaturase gene crtl of Erwinia uredovora was expressed, the 5'-region of which was fused to the sequence for the transit peptide of a pea Rubisco small subunit, in tobacco plants under the control of the CaMV 35S promoter. This chimeric gene product was targeted into chloroplasts and processed in the transgenic plants. The production and processing of the corresponding protein could be demonstrated by Western blotting. Immunogold localization showed that the location of the gene product Crtl was preferentially in the thylakoids. A radioactive labeling study using the leaves demonstrated enhanced activity for the synthesis of β-carotene. In addition, the transgenic tobacco acquired elevated resistance to the bleaching herbicide norflurazon.     

PEG-mediated plastid transformation: a new system for transient gene expression assays in chloroplasts

Summary Evidence is presented for the introduction of functional copies of the GUS-reporter gene with plastid regulatory signals into chloroplasts after treatment of Nicotiana plumbaginifolia leaf protoplasts with PEG. GUS-activity is found in cells derived from protoplasts treated with PEG in the presence of plasmids harbouring the GUS-gene under the control of plastid promoter and terminator signals (plastid-specific reporter gene constructions). The activity is maintained after chloroplast isolation and incubation with the protease thermolysin under conditions sufficient to completely remove the much higher transient nuclear/cytoplasmic expression of a GUS-gene carrying the CaMV 35S-promoter. Likewise, GUS-activity derived from a plasmid coding for the nuclear/cytoplasmic expression of the reporter gene with a plastid transit presequence is also maintained after these procedures. These results indicate that PEG-treatment is a suitable protocol by which to introduce DNA into chloroplasts for the study of transient gene expression.     

转基因烟草表达西红花CSzCD基因产生西红花酸

为研究转基因烟草中产生西红花酸的可行性,在本研究中,西红花玉米黄素裂解酶（CSzCD）基因插入到pBI121载体的花椰菜花病毒（CaMV）35S启动子下游,通过农杆菌介导整合到烟草基因组中。通过Southern blotting 分析得到21株转基因烟草植株系; 转基因烟草叶片提取物Western blotting 和HPLC分析显示有西红花酸的产生,然而阴性对照中并没有发现西红花酸的存在。