The effect of different promoter-sequences on transient expression of gus reporter gene in cultured barley (Hordeum vulgare L.) cells

The cauliflower mosaic virus 35S (35S) and the enhanced 35S (E35S) promoters fused with maize alcohol dehydrogenase (Adh1) intron1 or maize shrunken locus (sh1) intronl along with maize Adh1 and rice actin (Act1) promoters fused to their respective first introns were tested for transient expression of the E.coli -glucuronidase (gus) reporter gene in cultured barley (Hordeum vulgare L) cells. The plasmids, carrying the respective promoterintron combinations to drive the gus fused to nopaline synthase (nos) terminator, were introduced into cultured barley cells using a particle gun. The rice Act1 promoter with its first intron gave the highest expression of all promoter intron combinations studied. This was followed by the E35S promoter and no significant differences were observed between the other two promoters tested. The rice actin promoter is now being used to drive selectable marker genes to obtain stably transformed cereal cells.NRCC No. 36482     

Efficient transient expression and transformation of PEG-mediated gene uptake into mesophyll protoplasts of pepper (<Emphasis Type="Italic">Capsicum annuum</Emphasis> L.)

PEG-mediated transformation was used for gene delivery and evaluation of various parameters affecting the transient expression of a gene for ß-glucuronidase (gus) in mesophyll protoplasts of Capsicum annuum. Transient expression was found to be dependent on PEG concentration and exposure time of plasmid DNA to protoplasts as well as the amount of plasmid DNA. Maximum GUS activity was obtained when protoplasts were applied to 40% concentration and molecular weight was 6,000 of PEG solution with 30 min of exposure time. Protoplasts of pepper were transformed with a vector, pCAMBIA::Ac, which contained a pCAMBIA1302 T-DNA vector carrying a maize transposable element, Ac (activator), a selection marker HPT (hygromycin phosphotransferase), and a GFP-coding region driven by the 35S promoter in the presence of PEG. Approximately 30% of the protoplasts expressed GFP. Visibly transformed colonies were obtained from protoplasts after 2 months of culture and GFP was expressed. Southern hybridization confirmed the presence of Ac in the pepper genome.     

The pea <Emphasis Type="Italic">PsEND1</Emphasis> promoter drives the expression of GUS in transgenic wheat at the binucleate microspore stage and during pollen tube development

Many plant genetic engineering applications require spatial expression of genes which in turn depends upon the availability of specific promoters. In cereals, genetic modification of flowering and grain setting to influence yield and grain quality is of significant interest. PsEND1 is a pea promoter that displays expression in the epidermis, connective tissue, endothecium and middle layers during different stages of anther development. No homeologous sequence of this promoter or its coding sequence has been found in cereals. This present work aimed at the characterization of the pea PsEND1 promoter driving the expression of the gusA gene in transgenic wheat. Nine transgenic lines were produced by particle bombardment and analyzed for the expression of the gusA gene throughout development by histochemical GUS staining and by RT-PCR in vegetative and reproductive tissues and organs. Expression of the gusA gene was first detected during pollen development, in microspores at binucleate stage. Activity of the gusA gene was also found in mature pollen, after anthesis. Following pollen grain germination, expression of the gusA gene was seen from an early stage of pollen tube formation until advanced stages, approaching the ovary. No further expression of the gusA gene was detected after fertilization, nor during seed development. The results reported here show that the PsEND1 promoter is functional in wheat and its patterns of expression may be of interest for the application of genetic modification in wheat breeding.     

Physical,chemical and physiological parameters for electroporation-mediated gene delivery into rice protoplasts

Transformation of cereal protoplasts has been reported using several methods; however, the efficiencies of transformations are still very low. We have evaluated a number of parameters that influence electroporation-mediated DNA uptake and have also compared the efficiency of transient GUS activity and stable transformation obtained using an optimized electroporation method with that of the PEG method. The electroporation conditions tested were ionic composition of buffer, ionic strength, resistivity of buffer, type of anions, voltage, and capacitance.Protoplasts isolated from suspension cultures derived from immature embryos of rice (cvs Radon and IR-54) were used for this study. Stable transformation or transient GUS expression experiments were carried out using a plasmid construct containing the CaMV 35S promoter driving thebar gene and a rice actin promoter driving thegus A (uid A) gene (pAG35bar). Electroporation under optimized conditions resulted in about 13-fold higher GUS activities compared to the PEG method. Protoplast survival following optimized electroporation conditions was 55–60%, compared to 35–40% with the PEG treatment. Protoplasts isolated from a suspension culture at different ages gave substantially different levels of transient GUS expression following electroporation-mediated DNA uptake. In contrast, the age of the suspension culture did not influence PEG-mediated DNA uptake and transient GUS activities, which remained low throughout the culture period examined (21 months). Putatively transformed calluses were selected after three to four weeks on medium containing phosphinothricin as the selection agent. The transformation frequencies ranged from 6.2×10^–5 to 5.4×10^–4 with the electroporation method compared to 1.3×10^–5 to 5.3×10^–5 with the PEG method. Southern blot analysis of PPT-resistant calluses obtained by the electroporation-mediated transformation showed simple intergration patterns of integrated DNA in most of the transformants.     

Activity of a maize ubiquitin promoter in transgenic rice

We have used the maize ubiquitin 1 promoter, first exon and first intron (UBI) for rice (Oryza sativa L. cv. Taipei 309) transformation experiments and studied its expression in transgenic calli and plants. UBI directed significantly higher levels of transient gene expression than other promoter/intron combinations used for rice transformation. We exploited these high levels of expression to identify stable transformants obtained from callus-derived protoplasts co-transfected with two chimeric genes. The genes consisted of UBI fused to the coding regions of the uidA and bar marker genes (UBI:GUS and UBI:BAR). UBI:GUS expression increased in response to thermal stress in both transfected protoplasts and transgenic rice calli. Histochemical localization of GUS activity revealed that UBI was most active in rapidly dividing cells. This promoter is expressed in many, but not all, rice tissues and undergoes important changes in activity during the development of transgenic rice plants.     

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.     

Expression of a 434:VP16 chimeric activator leads to high-level activation of gene expression in stable transformants of Arabidopsis

The performance of an expression system based on a fusion of the bacteriophage 434-repressor to the VP16 activation domain of Herpes simplex virus type 1 (434:VP16) was tested after stable integration into Arabidopsis. A special feature of this system was the use of the monocot maize ubiquitin1 and rice actin1 promoters to drive the expression of the 434:VP16 activator and 434-repressor, respectively. Our results demonstrate that the maize ubiquitin1 and the rice actin1 promoters, each of which contain introns, are active in Arabidopsis and can be used to express genes in this dicot species. Activation of gene expression after co-integration of the activator and reporter cassettes into the same genomic locus resulted in a higher activation level (84-fold activation) compared to crossing individual lines expressing only the activator or the operator reporter cassette alone (9-fold activation). Increasing the number of operator elements in the reporter cassette from 1 to 4 increased the activation level in cross-activated lines to an average of 281-fold with one combination of parental lines giving a 900-fold activation. Simultaneous expression of the 434-repressor protein driven by the rice actin promoter resulted in a significant decrease in the 434:VP16 mediated reporter gene expression. Nevertheless, an overall induction via 434:VP16 was possible even in the presence of the 434-repressor protein. This feature is important for genes which need to be absolutely repressed except under activating conditions. To our knowledge this investigation is the first report on the use of the 434:VP16 chimeric activator in an expression system in stably transformed plant lines.     

Lanthanide ions are agonists of transient gene expression in rice protoplasts and act in synergy with ABA to increase Em gene expression

Previous work has shown that in rice suspension cells, NaCl at 0.4 M can induce Em gene expression and act synergistically with ABA, possibly by potentiating the ABA response pathway through a rate-limiting intermediate (R.M. Bostock and R.S. Quatrano (1992) Plant Physiol., 98, 1356–1363). Since calcium is an intermediate in ABA regulation of stomatal closure, we tested the effect of calcium changes on ABA-inducible Em gene expression in transiently transformed rice protoplasts. We show that calcium is required for ABA-inducible Em-GUS expression and can act in synergy with ABA. The trivalent ions lanthanum, gadolinium, and aluminum, which are known to interact with calcium- and other signaling pathways, can act at sub-millimolar concentrations to increase GUS reporter gene expression driven by several promoters in transiently transformed rice protoplasts. This effect is not specific for the ABA-inducible Em promoter, but is synergistic with ABA. The lanthanum synergy with ABA does not require calcium. In rice suspension cells, lanthanum alone does not induce Em gene expression, in contrast to transiently transformed protoplasts, yet can act synergistically with ABA to effectively increase the sensitivity to ABA greater than tenfold. Trivalent ions may be a useful tool to study the regulation of gene expression. The possible effects of trivalent ions on ABA signal transduction and gene expression are discussed.     

Effects of tissue type and promoter strength on transient GUS expression in sugarcane following particle bombardment

Effects of tissue type and promoter strength on transient GUS expression in the sugarcane (Saccharum spp. hybrids) cultivar NCo 310 were evaluated following microprojectile bombardment of leaf explants. GUS expression was histochemically or fluorometrically measured 48 h after delivery of the uidA gene. High levels of GUS expression were obtained in leaf segments isolated from young, expanding sugarcane leaves cultured for 1, 3, or 6 d prior to bombardment. The promoter derived from the maize ubiquitin 1 gene (Ubi-1) produced significantly more GUS foci and higher GUS activity levels compared to the recombinant Emu, rice actin 1 (Act1), and CaMV 35S promoters. Our transient expression system should facilitate efforts to identify promoters and elements which will regulate desired gene expression patterns in sugarcane and aid in development of an efficient stable transformation system.Abbreviations Act1 rice actin 1 gene - CaMV cauliflower mosaic virus - GUS ß-glucuronidase - Ubi-1 maize ubiquitin 1 gene - uidA GUS gene - X-Glu 5-bromo-4-chloro-3-indoylglucuronide     

Quantitative transient gene expression: Comparison of the promoters for maize polyubiquitin1, rice actin1, maize-derivedEmu andCaMV 35S in cells of barley,maize and tobacco

The particle gun approach was used for the quantification of promoter efficiency in a test system for transient gene expression. β-Glucuronidase was used as reporter gene for determining promotote strength. The variability inherent in this gene transfer system was considerably reduced by calculating a transformation efficiency factor given by the expression of a cotransferred second reporter gene (firefly luciferase). The calibration of β-glucuronidase activity by the transformation efficiency factor caused a lower statistical variance of the values and allowed reliable results to be obtained with a smaller set of repetitions. The CaMV 35S promoter (as a control) and the monocot-specific promoters for maize polyubiquitin1, rice actin 1 and the maize-derivedEmu were characterized and compared with respect to expression strength, as tested under identical conditions in suspension cell cultures of maize, barley and tobacco. Compared to the 35S promoter, the monocot-specific promoters show up to 15-fold higher expression in maize and barley but give only weak expression in tobacco. No expression was found for the rice actin 1 promoter in tobacco. The level of reporter gene expression is influenced by the osmotic potential in the agar medium. For theEmu promoter, the calibrated β-glucuronidase activities remained mearly constant at low sucrose concentrations. Above 8% sucrose, the calibrated activities increased steadily with increasing osmotic conditions, reaching a three-to four-fold higher level at the highest sucrose concentration (32%) as compared to the standard concentration (4% sucrose) in the medium.     

拟南芥AtPUB18的亚细胞定位和酶活性及AtPUB18的表达

通过RT-PCR技术从拟南芥中克隆到AtPUB18全长ORF。利用VectorNTI和MEGA 5.0对蛋白序列进行生物信息学分析结果显示,AtPUB18和AtPUB19蛋白序列相似性为74.9%,一致性为63.5%;构建AtPUB18启动子(1 974bp)融合GUS报告基因载体并转化拟南芥,组织化学染色分析显示,低温和干旱诱导后转基因植株中AtPUB18表达水平显著提高;构建AtPUB18与绿色荧光蛋白基因(GFP)融合的瞬时表达载体并转化原生质体,激光共聚焦显微镜观察发现,AtPUB18-GFP融合蛋白分布在细胞核和细胞质中;构建AtPUB18与麦芽糖结合蛋白基因(MBP)融合表达载体并转化大肠杆菌表达融合蛋白,纯化后的蛋白进行泛素连接酶活性检测结果显示,在小麦泛素激活酶E1和人泛素结合酶E2存在时,AtPUB18具有泛素连接酶活性。研究表明,AtPUB18是一个有功能的泛素连接酶,定位在细胞膜和细胞质中,可能参与拟南芥对非生物胁迫的响应。     

A Novel Non-wounding Transient Expression Assay for Cereals Mediated by Agrobacterium tumefaciens

A novel Agrobacterium tumefaciens-mediated transient expression assay (AmTEA) was developed for young plants of different cereal species and the model dicot Arabidopsis thaliana. AmTEA was evaluated using five promoters (six constructs) and two reporter genes, gus and egfp. The constitutive 35S promoter and the promoter of the rice glutaredoxin gene showed gus and egfp expression in the cereals analyzed in the present study. A promoter for the DEAD-box RNA helicase family protein gene from Arabidopsis showed similar expression patterns of reporter genes in stable transgenic lines as well as in transient expression lines of Arabidopsis. Agrobacterium tumefaciens co-cultivation and plant incubation times were optimized using 35S and the rice expressed protein gene promoter (R2-273). The possibility of non-specific expression of the reporter genes was ruled out by using the antibiotic carbenicillin and the comparison of expression of the reporter genes driven by full-length and truncated R2-273 promoters. AmTEA considerably reduced time, space, labor, and cost requirements. Ease of use with stress treatments is another major advantage of this method. AmTEA can be automated and used for large-scale studies to decipher promoter and gene functions with the ultimate goal to enhance the performance of cereal crops against biotic and abiotic stresses.     

Transient expression in Arabidopsis thaliana protoplasts derived from rapidly established cell suspension cultures

Arabidopsis thaliana has emerged as a model species for the analysis of genes controlling plant development. However, its small size has impaired biochemical analyses, and the absence of a transient expression system has hampered promoter analysis. Here, we report a method for rapidly establishing A. thaliana suspension cultures that yield protoplasts that can be readily transfected. We have optimized transient expression conditions using a modified polyethylene glycol / calcium nitrate transformation protocol and a Cauliflower Mosaic Virus 35S promoter-luciferase reporter gene construct. Our methods permit isolation of large quantities of rapidly growing cells and analysis of Arabidopsis promoters in vivo in a homologous system.Abbreviations CaMV Cauliflower Mosaic Virus - 2,4D 2,4-dichlorophenoxyacetic acid - MES 2-(N-morpholino)ethanesulfonic acid - PEG polyethylene glycol     

Tissue specific expression of β-glucuronidase gene driven by heterologous promoters in transgenic cauliflower plants

In this paper we compare five heterologous promoters fused to β-glucuronidase gene in their influence on localization of GUS activity in cauliflower (Brassica oleracea var. botrytis) tissues: roots, leaves, petioles and curds. A constitutive promoter CaMV 35S and four tissue specific promoters were used: extAP from rape, PsMTAP from pea, RBCS3CP from tomato and SRS1P from soybean, and introduced into cauliflower seedling explants using Agrobacterium rhizogenes mediated transformation. Quantitative and histochemical GUS assays confirmed tissue specific gus expression. It was found that extAP promoter was the most active in petioles but also caused a significant gus expression in curds. GUS activity was hardly observed in curd and restricted only to its epidermis when PsMTAP promoter drove the gene. RBCS3CP and SRS1P promoters controlled similar expression of the gus gene throughout the plant except for curd where RBCS3CP was almost inactive.     

Effects of promoter,intron and enhancer elements on transient gene expression in sugar-cane and carrot protoplasts

Various chimaeric promoter regions coupled to the uidA -glucuronidase gene were evaluated for transient expression strength following electroporation into sugar-cane (monocot) and carrot (dicot) protoplasts. Multiple enhancer elements increased expression in sugar-cane, by up to 400-fold for the artificial Emu promoter relative to the CaMV 35S promoter. The relative expression strengths of promoters varied substantially between the species. Sugar-cane also differed in some respects from previously tested species in the family Poaceae. For example, in sugar-cane the nopaline synthase and CaMV 35S promoters were of equivalent strength, and insertion of Adh1 intron 1 into the 5 transcribed region decreased expression strength.     

Rol genes alter hormonal requirements for protoplast growth and modify the expression of an auxin responsive promoter

Summary Growth characteristics of tobacco protoplasts containing rolA linked to its own promoter, or the rolB, or rolC genes of Agrobacterium rhizogenes linked to the Cauliflower Mosaic Virus 35S RNA promoter were compared with those from untransformed plants. RolA protoplasts require auxin and cytokinin for callus formation. Protoplasts overexpressing rolB and C form callus in the absence of exogenously applied auxin and cytokinin, respectively. Long term callus growth requires auxin, but the requirement for cytokinin is not critical. Optimal transient expression of an auxin responsive promoter element occurred at lower external levels of auxin in rolB and rolC protoplasts compared with untransformed protoplasts. Addition of putrescine was required for auxin responsive transient gene expression in rolA protoplasts suggesting that polyamines, or their products affect gene expression in rolA plants.Abbreviations T-DNA transferred DNA - TL-DNA left transferred DNA - NAA naphthalene acetic acid - PEG polyethylene glycol - GUS glucuronidase - CaMV cauliflower mosaic virus