Inhibition of tobacco NADH-hydroxypyruvate reductase by expression of a heterologous antisense RNA derived from a cucumber cDNA: Implications for the mechanism of action of antisense RNAs

Tobacco plants were genetically transformed to generate antisense RNA from a gene construct comprised of a full-length cucumber NADH-dependent hydroxypyruvate reductase (HPR) cDNA placed in reverse orientation between the cauliflower mosaic virus 35S promoter and a nopaline synthase termination/polyadenylation signal sequence. In vivo accumulation of antisense HPR RNA within eight independent transgenic tobacco plants resulted in reductions of up to 50% in both native HPR activity and protein accumulation relative to untransformed tobacco plants (mean transgenote HPR activity=67% wild type, mean transgenote HPR protein=63% wild type). However, in contrast to previous reports describing antisense RNA effects in plants, production of the heterologous HPR antisense RNA did not systematically reduce levels of native tobacco HPR mRNA (mean transgenote HPR mRNA level=135% wild type). Simple regression comparison of the steady-state levels of tobacco HPR mRNA to those of HPR antisense RNA showed a weak positive correlation (r value of 0.548, n=9 ; n is wild type control plus eight independent transformants; significant at 85% confidence level), supporting the conclusion that native mRNA levels were not reduced within antisense plants. Although all transgenic antisense plants examined displayed an apparent reduction in both tobacco HPR protein and enzyme activity, there is no clear correlation between HPR activity and the amount of either sense (r=0.267, n=9) or antisense RNA (r=0.175, n=9). This compares to a weak positive correlation between HPR mRNA levels and the amount of HPR activity observed in wild-type SRI tobacco plants (r=0.603, n=5). The results suggest that in vivo production of this heterologous HPR antisense RNA is inhibitory at the level of HPR-specific translation and produces its effect in a manner not dependent upon, nor resulting in, a reduction in steady-state native HPR mRNA levels. In this context, the observed antisense effect appears to differ mechanistically from most antisense systems described to date.     

Allene Oxide Cyclase from <Emphasis Type="Italic">Camptotheca acuminata</Emphasis> Improves Tolerance Against Low Temperature and Salt Stress in Tobacco and Bacteria

Allene oxide cyclase (AOC, E 5.3.99.6) is an essential enzyme in jasmonate (JA) biosynthetic pathway. An AOC gene (defined as CaAOC, Database Accession No. AY863428) had been isolated from Camptotheca acuminata in previous work. Real-time quantitative PCR analysis indicated that mRNA expression of CaAOC was induced by salt stress (120 mM NaCl) and low temperature (4 degrees C). In order to further investigate the role of AOC gene in the processes, CaAOC was introduced into tobacco via Agrobacterium tumefaciens, and the transgenic lines were subjected to the examination of tolerance against salt stress and low temperature. Under salt stress, the chlorophyll content in transgenic tobacco was higher than that of in the wild plants. The electrolyte leakage test revealed that transgenic tobacco plants were more resistant to low temperature over control. Furthermore, 5'-truncated CaAOC was inserted into pET30 and then expressed in Escherichia coli strain BL21DE3 (pLysS). Interestingly, the transformants could grow on 2YT agar containing 400 mM NaCl. Although these mechanisms are not clear yet, this study suggested that CaAOC could not only be a potential target gene in the engineering of plants and bacteria for improved endurance against salt stress, but also be quite useful in enhancing plant tolerance to cold.     

Optimal Thermal Environments for Plant Metabolic Processes (Cucumis sativus L.) (Light-Harvesting Chlorophyll a/b Pigment-Protein Complex of Photosystem II and Seedling Establishment in Cucumber)

Analysis of the temperatures providing maximal photosystem II fluorescence reappearance following illumination and thermal kinetic windows (TKWs), obtained from the temperature characteristics of enzyme apparent Km values, have been proposed as indicators of the bounds of thermal stress in plants. In this study, we have evaluated the temperature optimum for the accumulation of the chlorophyll a/b light-harvesting complex of photosystem II (LHCP II), its mRNA, and the mRNA of the small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) in cucumber (Cucumis sativus L. cv Ashley) as a broader measure of metabolism than that provided by either the fluorescence reappearance or TKWs. The TKW for cucumber is between 23.5 and 39[deg]C, with the minimum apparent Km occurring at 32.5[deg]C. The photosystem II variable fluorescence reappearance following illumination was maximal between 30 and 35[deg]C. Maximum synthesis of the LHCP II occurred at 30[deg] C. The light-induced accumulation of the LHCP II and the small subunit of Rubisco mRNAs showed similar temperature characteristics. Suboptimal temperatures delayed germination, altered cotyledonary soluble sugar content, and broadened the temperature range for chlorophyll accumulation. These results demonstrate an effect of seed reserve mobilization on the range of temperatures for chlorophyll accumulation, and suggest that metabolic temperature characteristics may be broadened by increasing available substrates for enzyme utilization. This study provides new information about the relationship between TKWs and cellular responses to temperature. In addition, the results suggest that the temperature range outside of which plants experience temperature stress is narrower than traditionally supposed.     

Steroid profiles of transgenic tobacco expressing an Actinomyces 3-hydroxysteroid oxidase gene

Previously, we have shown that the expression of a 3-hydroxysteroid-oxidase gene in transgenic tobacco initiated a series of biochemical events leading to the conversion of sterol to stanol. As a result, the plants maintained a diminished sterol pool and a modified relative sterol ratio but demonstrated no observable morphological abnormalities. The maintenance of normal higher plant physiology in the absence of particular sterols or in the presence of modified sterol ratios is controversial. In this report, we present additional biochemical and physiological characteristics of transgenic tobacco expressing an Actinomyces 3-hydroxysteroid-oxidase gene. The total steroid accumulated in the transgenic plants is 6-fold higher than in control plants and consists of sterol, 3-ketosteroid and stanol. The relative abundance of sterols within whole plant and individual organs is grossly altered as ethylated side chain sterols account for 99% of the total sterol pool in the transgenic tobacco. Stigmasterol is readily apparent in all tissues and cholesterol is found at measurable levels in specific organs, while campesterol and sitosterol are detected at trace levels in the transgenic plants. Stanols and 3-ketosteroids accumulate in all tissues and represent 77% of the measurable steroid pool in the transgenic plants. The sum of sterol, the respective 3-ketosteroid plus stanol provide a relative abundance of steroid, which is similar to the abundance of sterol accumulated in control tissue. In vitro photosynthetic electron transport measurements demonstrate altered activity of chloroplasts under a variety of reaction conditions, indicating a link between the modified steroid pool and a modulation of chloroplast membrane function.     

Forcing expression of a soybean root glutamine synthetase gene in tobacco leaves induces a native gene encoding cytosolic enzyme

Glutamine synthetase (GS; EC 6.3.1.2) is present in different subcellular compartments in plants. It is located in the cytoplasm in root and root nodules while generally present in the chloroplasts in leaves. The expression of GS gene(s) is enhanced in root nodules and in soybean roots treated with ammonia. We have isolated four genes encoding subunits of cytosolic GS from soybean (Glycine max L. cv. Prize). Promoter analysis of one of these genes (GS15) showed that it is expressed in a root-specific manner in transgenic tobacco and Lotus corniculatus, but is induced by ammonia only in the legume background. Making the GS15 gene expression constitutive by fusion with the CaMV-35S promoter led to the expression of GS in the leaves of transgenic tobacco plants. The soybean GS was functional and was located in the cytoplasm in tobacco leaves where this enzyme is not normally present. Forcing this change in the location of GS caused concomitant induction of the mRNA for a native cytosolic GS in the leaves of transgenic tobacco. Shifting the subcellular location of GS in transgenic plants apparently altered the nitrogen metabolism and forced the induction in leaves of a native GS gene encoding a cytosolic enzyme. The latter is normally expressed only in the root tissue of tobacco. This phenomenon may suggest a hitherto uncharacterized metabolic control on the expression of certain genes in plants.     

Cadmium resistance in transgenic tobacco plants enhanced by expressing bean heavy metal-responsive gene <Emphasis Type="Italic">PvSR2</Emphasis>

PvSR2 (Phaseolus vulgaris stress-related gene) has been cloned from French bean and shown to be expressed specifically upon heavy metal treatment. In order to investigate the role of PvSR2 in plant, PvSR2 gene under the control of cauliflower mosaic virus 35S promoter was introduced into tobacco mediated with Agrobacterium tumefaciens LBA4404. The regenerated plantlets were selected on medium with 100 mg/L kanamycin. PCR and Southern blot analysis showed PvSR2 gene was integrated in tobacco genome. Gus and Northern blot analysis indicated PvSR2 gene was expressed in transgenic seedling. The heavy metal resistance assay showed that the transgenic tobacco seedlings with the PvSR2 coding sequence exhibited higher tolerance to Cd compared with wild-type (WT) under Cd exposure. The Cd content accumulated in root between transgenic and WT seedlings had no obvious difference at lower Cd external concentration (0.05-0.075 mmol/L CdCl2), whereas transgenic plant showed a lower root Cd content than the control at higher external Cd concentration (0.1 mmol/L CdCl2). These results suggested that the expression of PvSR2 can enhance the Cd tolerance, and PvSR2 may be involved in Cd transportation and accumulation at the test concentration of 0.1 mmol/L Cd.     

Cadmium resistance in transgenic tobacco plants enhanced by expressing bean heavy metal-responsive gene PvSR2

Heavy metal pollution such as Cd, Hg, Pb, As and Se is an increasing environment problem worldwide. These metals and metalloids have toxic effect on both plants and animals, which are strongly poisonous to metal-sensitive enzymes, resulting in growth inhibition and death of the organism[1]. Contamination of soils with heavy metals, either by natural causes or due to pollution, often has pronounced effects on the vegetation, resulting in the appearance of metallophytes, and heavy-metal tolera…     

Regulation of Leaf Senescence by Cytokinin, Sugars, and Light : Effects on NADH-Dependent Hydroxypyruvate Reductase

The aim of this study was to investigate the interactions between cytokinin, sugar repression, and light in the senescence-related decline in photosynthetic enzymes of leaves. In transgenic tobacco (Nicotiana tabacum) plants that induce the production of cytokinin in senescing tissue, the age-dependent decline in NADH-dependent hydroxypyruvate reductase (HPR), ribulose-1,5-bisphosphate carboxylase/oxygenase, and other enzymes involved in photosynthetic metabolism was delayed but not prevented. Glucose (Glc) and fructose contents increased with leaf age in wild-type tobacco and, to a greater extent, in transgenic tobacco. To study whether sugar accumulation in senescing leaves can counteract the effect of cytokinin on senescence, discs of wild-type leaves were incubated with Glc and cytokinin solutions. The photorespiratory enzyme HPR declined rapidly in the presence of 20 mm Glc, especially at very low photon flux density. Although HPR protein was increased in the presence of cytokinin, cytokinin did not prevent the Glc-dependent decline. Illumination at moderate photon flux density resulted in the rapid synthesis of HPR and partially prevented the negative effect of Glc. Similar results were obtained for the photosynthetic enzyme ribulose-1,5-bisphosphate carboxylase/oxygenase. It is concluded that sugars, cytokinin, and light interact during senescence by influencing the decline in proteins involved in photosynthetic metabolism.     

Ethylene formation and phenotypic analysis of transgenic tobacco plants expressing a bacterial ethylene-forming enzyme

A bacterial ethylene-forming enzyme (EFE) catalyzes oxygenation of 2-oxoglutarate to produce ethylene and carbon dioxide in contrast to a plant enzyme which uses 1-aminocyclopropane-1-carboxylic acid as a substrate. We constructed several lines of transgenic tobacco plants which expressed an EFE from Pseudomonas syringae pv. phaseolicola PK2. The gene encoding a chimeric protein consisting of EFE and beta-glucuronidase (GUS) was introduced into the tobacco genome using a binary vector which directs expression of the EFE-GUS fusion protein under the control of constitutive promoter of cauliflower mosaic virus 35S RNA. Two lines of transgenic plants produced ethylene at consistently higher rates than the untransformed plant, and their GUS activities were expressed in different tissues. A significant dwarf morphology observed in the transgenic tobacco displaying the highest ethylene production resembled the phenotype of a wild-type plant exposed to excess ethylene. These results demonstrate a potential use of bacterial EFE to supply ethylene as a hormonal signal via an alternative route using an ubiquitous substrate 2-oxoglutarate in plant tissues.     

转番茄GGPS2基因烟草的构建及弱光耐受性分析

为探讨弱光处理对转番茄Solanum lycopersicon L.GGPS2基因烟草的类胡萝卜素、叶绿素合成及耐弱光性的影响,将Sla GGPS2基因和绿色荧光蛋白报告基因(GFP)经农杆菌介导转入烟草Nicotiana tabacum L.cv.Wisconsin 38。PCR检测证明抗卡那霉素烟草含有npt II、Sla GGPS2基因,且无农杆菌污染;荧光检测发现,抗卡那霉素烟草的根尖呈现特有的荧光,由此说明获得了整合Sla GGPS2和GFP等外源基因的转基因烟草。弱光处理后,发现转Sla GGPS2基因烟草的类胡萝卜素含量、叶绿素总量、光合速率、单位叶面积重、总干重、根冠干重比均比野生烟草高,达到了差异显著水平。证实Sla GGPS2基因增加了弱光下烟草的类胡萝卜素含量、叶绿素总量,增强了光合速率,促进了生物量积累及其向根部的分配,提高了烟草弱光下的耐受性,推测可用于其他作物的耐弱光性改良。     

Coat protein-mediated protection: analysis of transgenic plants for resistance in a variety of crops

Since 1986, research has shown that plants expressing the coat protein gene of a plant virus exhibit degrees of resistance or protection when challenge inoculated with that virus or closely related isolates. This phenomenon, called coat protein-mediated protection, sparked research efforts to develop transgenic plants that resist infection to a range of plant viruses. This report summarizes the research efforts that deal with viral coat protein gene-crop combinations of commercial potential. The viruses include tobacco mosaic, potato virus X and Y, cucumber mosaic and papaya ringspot; the crops include tomato, cucumber, tobacco and papaya.     

Species-dependent expression of the hyoscyamine 6 beta-hydroxylase gene in the pericycle.

The tropane alkaloid scopolamine is synthesized in the pericycle of branch roots in certain species of the Solanaceae. The enzyme responsible for the synthesis of scopolamine from hyoscyamine is hyoscyamine 6 beta-hydroxylase (H6H). The gene for H6H was isolated from Hyoscyamus niger. It has an exon/intron organization very similar to those for ethylene-forming enzymes, suggesting a common evolutionary origin. The 827-bp 5' flanking region of the H6H gene was fused to the beta-glucuronidase (GUS) reporter gene and transferred to three solanaceous species by Agrobacterium-mediated transformation systems: H. niger and belladonna (Atropa belladonna), which have high and low levels, respectively, of H6H mRNA in the root, and tobacco (Nicotiana tabacum), which has no endogenous H6H gene. Histochemical analysis showed that GUS expression occurred in the pericycle and at the root meristem of transgenic H. niger hairy roots, but only at the root meristem of transgenic H. niger hairy roots, but only at the root meristem of hairy roots and plants of transgenic tobacco. In transgenic hairy roots and regenerated plants of belladonna, the root meristem was stained with GUS activity, except for a few transformants in which the vascular cylinder was also stained. These studies indicate that the cell-specific expression of the H6H gene is controlled by some genetic regulation specific to scopolamine-producing plants.     

Expression of a reporter gene is reduced by a ribozyme in transgenic plants

A chimeric gene encoding a ribozyme under the control of the cauliflower mosaic virus (CaMV) 35S promoter was introduced into transgenic tobacco plants. In vivo activity of this ribozyme, which was designed to cleave npt mRNA, was previously demonstrated by transient expression assays in plant protoplasts. The ribozyme gene was transferred into transgenic tobacco plants expressing an rbcS-npt chimeric gene as an indicator. Five double transformants out of sixteen exhibited a reduction in the amount of active NPT enzyme. To measure the amount of ribozyme produced, in the absence of its target, the ribozyme and target genes were separated by genetic segregation. The steady-state concentrations of ribozyme and target RNA were shown to be similar in the resulting single transformants. Direct evidence for a correlation between reduced npt gene expression and ribozyme expression was provided by crossing a plant containing only the ribozyme gene with a transgenic plant expressing the npt gene under control of the 35S promoter, i.e. the same promoter used to direct ribozyme expression. The expression of npt was reduced in all progeny containing both transgenes. Both steady-state levels of npt mRNA and amounts of active NPT enzyme are decreased. In addition, our data indicate that, at least in stable transformants, a large excess of ribozyme over target is not a prerequisite for achieving a significant reduction in target gene expression.     

Spatial and temporal pattern of light-regulated gene expression during tobacco seedling development: the photosystem II-related genes Lhcb (Cab) and PsbP (Oee2)

The white mustard ( Sinapis alba L.) Lhcb1*1 and PsbP*1 genes that code for proteins related to photosystem II (PSII) in chloroplasts were examined by analysis of promoter fragment β-glucuronidase (GUS) reporter constructs in transgenic tobacco ( Nicotiana tabacum L.) seedlings. The endogenous tobacco genes and the introduced mustard genes follow the same kinetics during seedling development and they show the same expression characteristics for light regulation and for the influence of a 'plastidic signal'. Hence, the cellular environment of the host plant always dominates the regulation of Lhcb1*1 and PsbP*1 gene expression; as with the mustard system clear differences in the temporal pattern and the physiological responses could be seen. The spatio-temporal pattern of gene expression was analysed in the different organs of the transgenic tobacco seedlings. In the cotyledons, expression at the PsbP*1 promoter starts in advance, and both genes show a rather uniform distribution of expression during seedling development. In the hypocotyl, a sequential basipetal pattern could be detected and a coordinated expression for the two promoters was analysed. The hypocotyl base is only included in this expression pattern if the seedlings receive light at early stages of development, whereas in later stages gene expression is repressed. A model is proposed that divides tobacco seedling development into three main phases.     

Overexpression of <Emphasis Type="Italic">CsNMAPK</Emphasis> in tobacco enhanced seed germination under salt and osmotic stresses

In this research, biological function of CsNMAPK, encoding a mitogen-activated protein kinase of cucumber, was investigated under salt and osmotic stresses. Northern blot analysis showed that the expression of CsNMAPK was induced by salt and osmotic stresses in the cucumber root. In order to determine whether CsNMAPK was involved in plant tolerance to salt and osmotic stresses, transgenic tobacco plants constitutively overexpressing CsNMAPK were generated. Northern and Western blot analysis showed that strong signals were detected in the RNA and protein samples extracted from transgenic lines, whereas no signal was detected in the wild type tobacco, indicating that CsNMAPK was successfully transferred into tobacco genome and overexpressed. The results of seed germination showed that germination rates of transgenic lines were significantly higher than wild type under high salt and osmotic stresses. In addition, seed growth of transgenic lines was much better than wild type under salt and osmotic stresses. These results indicated that overexpression of CsNMAPK positively regulated plant tolerance to salt and osmotic stresses.     

地衣芽孢杆菌耐高温α-淀粉酶基因的克隆、烟草瞬时表达及转化拟南芥的研究

从地衣芽孢杆菌(Bacillus licheniformis)中克隆到耐高温α-淀粉酶基因全长, 构建了原核表达载体, 转入大肠杆菌(Escherichia coli)中, 使用IPTG于28°C诱导6小时后, 通过SDS-PAGE检测到目的蛋白, 分子量约为55 kDa, 并通过酶活力检测实验证明该蛋白具有耐高温α-淀粉酶活性。同时构建了该基因融合GFP的植物表达载体, 通过农杆菌(Agro- bacterium tumefaciens)介导瞬时转化烟草(Nicotiana tabacum)下表皮细胞并在荧光显微镜下观察, 发现在烟草下表皮细胞的细胞质和液泡中均有绿色荧光。使用I₂-KI溶液对乙醇脱色后的烟草叶片进行染色, 显色反应表明在烟草中表达的耐高温α-淀粉酶具有酶活性。最后, 采用农杆菌介导的花蕾浸泡法将重组载体转化到拟南芥(Arabidopsis thaliana)中, 筛选到稳定遗传的耐高温α-淀粉酶基因的拟南芥纯合子。研究结果为后期开展表达耐高温α-淀粉酶的转基因植物的相关研究奠定了实验基础。     

Expression of a heat stable phytase from Aspergillus fumigatus in tobacco (Nicotiana tabacum L. cv. NC89)

Aspergillus fumigatus contains a heat-stable phytase of great potential. To determine whether this phytase could be expressed in plants as a functional enzyme, we introduced the phytase gene from A. fumigatus (fphyA) in tobacco (Nicotiana tabacum L. cv. NC89) by Agrobacterium-mediated transformation. Phytase expression was controlled by the cauliflower mosaic virus (CaMV) 35S promoter. Secretion of recombinant phytase (tfphyA) to the extracellular fluid was established by use of the signal sequence from tobacco calreticulin. Forty-one independent transgenic plants were generated. Single-copy line A was selected based on segregation of T1 seeds for kanamycin resistance, phytase expression and Southern blotting analysis for use in further study. After 4-weeks of plant growth, the phytase was accumulated in leaves up to 2.3% of total soluble protein. tfphyA was functional and shared similar profiles of pH, temperature and thermal stability to the same enzyme expressed in Pichia pastoris (pfphyA). The expressed enzyme had an apparent molecular mass of 63 kDa and showed maximum activity at pH 5.5, and temperature, 55 degrees C. It had a high thermostability and retained 28.7% of the initial activity even after incubation at 90 degrees C for 15 min. The above results showed that the thermostable A. fumigatus phytase could be expressed in tobacco as a functional enzyme and thus has the potential of overexpressing it in other crop plants also.