Wound- and systemin-inducible calmodulin gene expression in tomato leaves

Using a calmodulin (CaM) cDNA as a probe in northern analyses, transgenic tomato plants that overexpress the prosystemin gene were found to express increased levels of CaM mRNA and protein in leaves compared to wild-type plants. These transgenic plants have been reported previously to express several wound-inducible defense-related genes in the absence of wounding. Calmodulin mRNA and protein levels were found to increase in leaves of young wild-type tomato plants after wounding, or treatment with systemin, methyl jasmonate, or linolenic acid. CaM mRNA appeared within 0.5 h after wounding or supplying young tomato plants with systemin, and peaked at 1 h. The timing of CaM gene expression is similar to the expression of the wound- or systemin-induced lipoxygenase and prosystemin genes, signal pathway genes whose expression have been reported to begin at 0.5–1 h after wounding and 1–2 h earlier than the genes coding for defensive proteinase inhibitor genes. The similarities in timing between the synthesis of CaM mRNA and the mRNAs for signal pathway components suggests that CaM gene expression may be associated with the signaling cascade that activates defensive genes in response to wounding.     

Expression of Human BMP-2 Gene in Different Tissues of Tobacco Plants

The bone morphogenetic proteins (BMPs) are a family of growth factors that regulate the development of bone. BMP-2 is the most effective in the induction of bone tissue. A large amount of BMP-2 is needed for both bone tissue engineering research and clinical application. Thus, an effective way is necessary to produce sufficient BMP-2 protein. With the advance in plant biotechnology, transgenic plants have been targeted as a bioreactor to produce desired recombinant proteins. Here, the expression of recombinant human bmp-2 gene (rhbmp-2) was studied in tobacco plants using gus as a reporter gene. The difference of expression levels in root, stem and leaf tissues was analyzed by GUS activity assay, semi-quantitive RT-PCR and western blotting. The results indicated that the expression levels of fusion protein in root and stem tissues were significantly higher than those in leaf tissue. For the protein compositions in root and stem tissues were simpler than those in leaf tissue, this suggested that the purification process with root and stem tissues would potentially be easier.     

Wound-induced RNaseLE expression is jasmonate and systemin independent and occurs only locally in tomato (Lycopersicon esculentum cv. Lukullus)

Tomato RNaseLE is induced by phosphate deficiency and wounding and may play a role in macromolecular recycling as well as wound healing. Here, we analyzed the role of jasmonate and systemin in the wound-induced RNaseLE activation. The rapid expression of RNaseLE upon wounding of leaves leading to maximal RNase activity within 10 h, appeared only locally. Jasmonic acid (JA) or its molecular mimic ethyl indanoyl isoleucine conjugate did not induce RNaseLE expression. Correspondingly, RNaseLE was expressed upon wounding of 35S::allene oxide cyclase antisense plants known to be JA deficient. RNaseLE was not expressed upon systemin treatment, but was locally expressed in the spr1 mutant which is affected in systemin perception. In tomato plants carrying a PromLE::uidA construct, GUS activity could be detected upon wounding, but not following treatment with JA or systemin. The data indicate a locally acting wound-inducible systemin- and JA-independent signaling pathway for RNaseLE expression.     

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.     

Isolation and characterization of wound-inducible carboxypeptidase inhibitor from tomato leaves

In a previous report [Mol. Gen. Genet. 228 (1991) 281], carboxypeptidase inhibitor protein (CPI) mRNA was found to accumulate in leaves of wounded tomato plants, but CPI protein could not be detected. In contrast, we found that CPI protein does accumulate in tomato leaves in response to wounding, and also in response to treatment with either systemin, methyl jasmonate (MeJ), oligogalacturonic acid, or chitosan. Identification of CPI protein was confirmed by its inhibition of metallo-carboxypeptidase A (CPAase), which was used as an assay during purification of the inhibitor from leaves of MeJ-treated tomato plants. Amino acid sequence analysis and mass spectroscopic analyses of the pure protein confirmed its identity as CPI. The pure protein inhibited CPAase in a 1:1 stoichimetric interaction. Time course analyses of the induction of CPI mRNA in tomato leaves in response to wounding indicated that the gene is a member of the group of "late genes" that code for defensive proteins synthesized in leaves in response to herbivore attack.     

Expression of Cry1Ac in Transgenic Tobacco Plants Under the Control of a Wound-Inducible Promoter (AoPR1) Isolated from Asparagus officinalis to Control Heliothis virescens and Manduca sexta

Expression of cry1Ac gene from Bacillus thuringiensis (Bt) was evaluated under the control of a wound-inducible AoPR1 promoter from Asparagus officinalis in transgenic tobacco plants. The leaves of transgenic plants were mechanically wounded to evaluate the activity of the AoPR1 promoter in driving the expression of Cry1Ac protein at the wound site. Our results indicate that mechanical wounding of transgenic plants was effective in inducing the expression of Cry1Ac protein. As a result of this induction, the accumulated levels of Cry1Ac protein increased during 6–72 h post-wounding period. The leaves of transgenic tobacco plants were evaluated for resistance against Heliothis virescens and Manduca sexta in insect bioassays in two different ways. The detached tobacco leaves were either fed directly to the insect larvae or they were first mechanically wounded followed by a 72 h post-wounding feeding period. Complete protection of mechanically wounded leaves of transgenic plants was observed within 24 h of the bioassay. The leaves of transgenic plants fed directly (without pre-wounding) to the larvae achieved the same level of protection between 24 and 72 h of the bioassay.     

铁皮石斛DoSMT2基因的功能分析

为了揭示铁皮石斛(Dendrobium officinale)甾醇C-24甲基转移酶2基因(DoSMT2)在甾醇代谢过程的功能,该研究通过根癌农杆菌介导法将来源于铁皮石斛的DoSMT2基因转化烟草(Nicotiana tabacum),并采用qRT-PCR技术检测DoSMT2基因在转基因烟草叶片中的表达,采用气相色谱质谱法分析菜油甾醇和谷甾醇的含量。结果显示:(1)成功获得DoSMT2基因的开放阅读框(1 119 bp),并成功构建正义植物表达载体质粒pCXSN-DoSMT2,经农杆菌介导的烟草叶盘转化法转化烟草并鉴定,获得4株阳性转基因烟草植株。(2)Southern blot结果表明,4株转基因烟草植株都有1条杂交信号带,而非转基因烟草植株没有,说明外源DoSMT2基因都以单拷贝整合到4株转基因烟草基因组中。(3)qRT-PCR检测显示,非转基因烟草未检测到外源DoSMT2基因的表达,4株转基因烟草都能检测到DoSMT2基因的表达,且表达水平差异极显著,各株系表达量高低依次为P3P1P2(P4)。(4)气相色谱质谱分析显示,转DoSMT2基因烟草叶片的菜油甾醇含量均极显著低于非转基因烟草叶片,而谷甾醇含量均极显著高于非转基因烟草叶片。研究表明,DoSMT2具有催化24-亚甲基胆甾烯醇转化形成24-亚乙基胆甾烯醇活性。     

Differential expression of antisense in regenerated tobacco plants transformed with an antisense version of a tomato ACC oxidase gene

Ethylene production was measured during vegetative and reproductive development in normal tobacco plants and in transgenic tobacco plants carrying antisense genes for tomato ACC oxidase driven by the 35S CaMV promoter (Hamilton et al., 1990). When expressed in three independently derived transgenic plants, the antisense ethylene gene failed to affect ethylene production in young/mature leaves or in stems but it did inhibit ethylene production in roots by 37–58%. Ethylene production in developing flowers (i.e. from small unopened flower buds up until open flowers at anthesis) was not affected in transgenic plants but ethylene production in fruits was inhibited by 35%. The most dramatic effect on ethylene production in transgenic plants was seen immediately after wounding leaf tissue, in which case the antisense gene inhibited wound ethylene production by 72%. Thus, the antisense gene composed of a 35S CaMV promoter driving a heterologous ACC oxidase sequence had differential effects on ethylene production in tobacco plants.     

内源茉莉酸甲酯的积累改变了大豆叶片与根的发育

茉莉酸甲酯是一种调节植物形态发生、诱导防御相关基因的植物信号转导分子。为了解内源茉莉酸甲酯在植物发育中的作用,将编码茉莉酸甲基转移酶的NTR1基因与CaMV 35S启动子连接并导入大豆植株。PCR及Northern杂交结果表明,NTR1基因稳定整合在大豆基因组并得到过量表达。与野生型植株相比,转基因大豆叶片与根的形态发生了显著的变化。大部分转基因大豆叶片变得细长,初生根生长受到抑制而侧根的生长却受到促进。定量分析结果表明,转基因大豆植株叶片中茉莉酸甲酯的含量比对照高出 2～2.5 倍。这些结果表明,内源茉莉酸甲酯的积累参与了大豆形态发生的调控。