Inducible expression of the gene of Zinnia elegans coding for extracellular ribonuclease in Nicotiana tabacum plants

The gene of Zinnia elegans L. coding for S-like extracellular ribonuclease (ZRNase II) was used to produce transgenic tobacco plants with an increased ribonuclease activity. The protein-coding part of ZRNase II included the signal peptide sequence so the transgenic protein was located extracellularly. The cDNA of ZRNase II was cloned under the control of 2′-promoter of the mannopine synthase (MAS 2′) gene from Ti-plasmid of Agrobacterium tumefaciens. It was shown that the resultant transgenic plants had an increased ribonuclease activity of the crude extracts and the induction of MAS 2′ promoter by wounding additionally increased the activity. The plants of two transforming lines characterized by different ribonuclease activities were used to analyze the transgene influence on plant resistance to tobacco mosaic virus. The plants demonstrated either absence of disease symptoms or a significant delay in their appearance, depending on the virus content in the inoculum and ribonuclease activity.     

Expression ofArabidopsis tryptophan biosynthetic pathway genes: effect of the 5′ coding region of phosphoribosylanthranilate isomerase gene

There are three non-allelic isogenes encoding phosphoribosylanthranilate isomerase (PAI) inArabidopsis thaliana. The expression plasmids were constructed by fusion of the GUS reporter gene to the three PAI promoters with or without the 5′ region encoding PAI N-terminal polypeptides and transferred into Arabidopsis plants byAgrobacterium tumefaciens. Analysis of GUS activity revealed that the PAI 5′ coding region was necessary for high expression of GUS activity. GUS activity in transgenic plants transformed with the expression plasmids containing the 5′ coding region of PAH or PAI3 was 60–100-fold higher than that without the corresponding 5′ region. However, the effect of 5’ coding region of PAI2 gene on the GUS activity was very small (only about 1 time difference). The GUS histochemical staining showed a similar result as revealed by GUS activity assay. It was expressed in the mesophyll cells and guard cells, but not in the epidermic cells, indicating that the N-terminal polypeptides encoded by the 5′ region of PAI genes have the function of PTP.     

Isolation of the maize <Emphasis Type="Italic">Zpu1</Emphasis> gene promoter and its functional analysis in transgenic tobacco plants

By screening a genomic library of maize, a 2.2 kb 5′ flanking fragment of Zpu1 gene, encoding the pullulanase-type starch debranching enzyme, was isolated. Promoter fragments of various lengths, including the full 5′ flanking sequence (−2267 to −1) (Z1), a 3′ deletion (−2267 to −513) (Z5) and three 5′ deletions extending to −1943 (Z2), −1143 (Z3) and −516 (Z4) upstream of the translational initiation codon (ATG), were fused to the GUS reporter gene and introduced into tobacco. When these constructs were tested in transgenic tobacco plants, seed-preferred GUS activity was observed in pZ1-transgenic lines. In pZ2-transgenic lines, the GUS activity was not only restricted to seeds, but was also detected in calyxes, petals, stamens and mature leaves. At the same time, negligible GUS activity was detected in roots, stems, young leaves, stigmas and ovaries from the transgenic tobacco plants, which had integrated the full isolated sequence of Zpu1 promoter or its deletions. Deletion analysis indicated that the promoter contained a putative positive cis-regulatory element and the proximal region (−516 to −1) was essential for directing the expression of gus reporter gene. Analysis of GUS activity during the fruit development and seed germination suggested that Zpu1 promoter is active both in starch anabolism and in starch catabolism, which is consistent with the function of the endogenous gene in maize. GUS activity in leaves under light and darkness confirmed that Zpu1 promoter functions in the starch degradation of photosynthetic tissues in the dark phase of the diurnal cycle.     

A novel wound-responsive cis-element, VWRE, of the vascular system-specific expression of a tobacco peroxidase gene, tpoxN1

The wound-induced expression of tpoxN1, encoding a tobacco peroxidase, is unique because of its vascular system-specific expression and insensitivity to known wound-signal compounds such as jasmonic acid, ethylene, and plant hormones [Sasaki et al. (2002) Plant Cell Physiol 43:108–117]. To study the mechanism of expression, the 2-kbp tpoxN1 promoter region and successive 5′-deletion of the promoter were introduced as GUS fusion genes into tobacco plants. Analysis of GUS activity in transgenic plants indicated that a vascular system-specific and wound-responsive cis-element (VWRE) is present at the −239/−200 region of the promoter. Gel mobility shift assays suggested that a nuclear factor(s) prepared from wounded tobacco stems binds a 14-bp sequence (−229/−215) in the −239/−200 region in a sequence-specific manner. A mutation in this 14-bp region of the −239 promoter fragment resulted in a considerable decrease in wound-responsive GUS activity in transgenic plants. An 11-bp sequence, which completely overlaps with the 14-bp sequence, was found in the 5′ distal region (−420/−410) and is thought to contribute to the wound-induced expression together with the 14-bp. The −114-bp core promoter of the tpoxN1 gene was indispensable for wound-induced expression, indicating that the 14-bp region is a novel wound-responsive cis-element VWRE, which may work cooperatively with other factors in the promoter.     

Expression of the rice cytoplasmic cysteine synthase gene in tobacco reduces ozone-induced damage

Cysteine serves as a precursor for the synthesis of various sulfur-containing metabolites, and the cysteine synthase (CS) gene plays a central role in the sulfur cycle in nature. In the present study, rcs1, a cytosolic CS gene of rice, was introduced into the genome of tobacco (Nicotiana tabacum). The tolerance of wild-type tobacco plants as well as of the resulting transgenic tobacco plants overexpressing the rcs1 gene to toxic levels of ozone (O₃, 0.15 μ mol⁻¹) was measured after various lengths of exposure. Leaf lesions in plants exposed for 2 weeks to O₃ were more prevalent in the leaves of the wild-type plants than in those of the transgenic tobacco plants. Transgenic tobacco plants showed a higher growth rate and a higher chlorophyll content than the wild-type plants. Cysteine synthase activity and cysteine and glutathione contents were higher in transgenic plants than in wild-type plants irrespective of the length of the O₃ treatment. Our results indicate that the CS gene plays a role in the protection of the plant against toxic O₃ gas, probably through the mechanism of an over-accumulation of such sulfur-rich antioxidants as cysteine and glutathione.     

Transgenic tobacco and peas expressing a proteinase inhibitor from Nicotiana alata have increased insect resistance

Proteinase inhibitors have been used to increase resistance to insect pests in transgenic plants. A cDNA clone encoding a multi-domain proteinase inhibitor precursor from Nicotiana alata (Na-PI) was transferred into tobacco and peas under the control of a promoter from a ribulose-1, 5-bisphosphate carboxylase small subunit gene. The Na-PI precursor was cleaved in the leaves of transgenic tobacco and peas, and M_r 6000 polypeptides accumulated to levels of 0.3% and 0.1%, respectively, of the total soluble protein. The Na-PI cDNA segregated as a dominant Mendelian trait and was stably transmitted for at least two generations of both species. Helicoverpa armigera larvae that ingested tobacco or pea leaves containing Na-PI exhibited higher mortality or were delayed in growth and development relative to control larvae.     

Promoter of the rolC gene of Agrobacterium rhizogenes can be strongly regulated in glandular cell of transgenic tobacco

A 577-bp promoter segment of Agrobacterium rhizogenes rolC, previously known as the phloem-specific gene expression promoter, was fused to the 5′ end of a reporter gene, β-glucuronidase (GUS), uidA. This rolC-promoter-driven expression of the GUS gene was found to be significantly strong in glandular cells in transgenic tobacco plants. Analysis of this segment of the promoter sequence revealed a myb response element.     

Control of phenylalanine ammonia-lyase gene promoters from pea by UV radiation

The gene fusion system was used to study UV light-control of PS PAL1 and PS PAL2 genes encoding phenylalanine ammonia-lyase of pea. The induction of pea PAL promoters was analysed in transgenic tobacco plants. Binary plasmids (derivatives of pBI101.2 vector) containing 5′ regulatory fragments of PS PAL1 and PS PAL2 linked to reporter genes (GUS,LUC) were constructed. The analyses were performed with the use of single constructs (containing one variant of PS PAL promoter and one reporter gene) and dual constructs (containing both PS PAL1 and PS PAL2 promoters connected with different reporter genes). The use of dual constructs enabled the evaluation of both PS PAL promoters activity in the same plant. The analyses of in vitro grown plants have shown that both PAL promoters are strongly induced in leaves subjected to UV radiation. In some cases, the UV-stimulated expression exceeded the exposed areas. This phenomenon was observed more often in the leaves of plants containing the PS PAL1::GUS than PS PAL2::GUS construct. Removal of boxes 2, 4, 5 from PS PAL1 promoter and deletion of its 5′ end region (-339 to -1394) decreases the level of gene expression but does not eliminate its responsiveness to UV.     

Phenotypic cost to plants of an extra gene

In lines of transgenic tobacco plants containing cowpea trypsin inhibitor gene constructs, the cost to various phenotypic characteristics has been measured in plants which express the gene at a high level and in plants which possess, but do not express, the cowpea sequences. Small, but in some cases significant, differences between transgenic and untransformed control plants were found in various parameters. There was no additional difference between transgenic plants which expressed cowpea trypsin inhibitor and those which did not. Thus, although the processes of transformation/regeneration may have some small effects on non-targeted phenotypic characteristics, the expression at high levels of this ‘foreign’ protein imposed no additional yield penalty on the plants.     

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。     

Characterization of a pollen-preferential gene, BAN102, from Chinese cabbage

We isolated and characterized a pollen-preferential gene, BAN102, from Chinese cabbage and analyzed the activity of its promoter. There were three or four copies of the BAN102 gene in the Chinese cabbage genome that specifically expressed in pollen and pollen tube. There were 2137 bp of BAN102 genomic clone comprising 186 bp of protein coding region, and 1178 bp of 5′ and 773 bp of 3′ non-coding regions. TATA box were located at 1071 nt of the promoter region while the polyadenylation signal and polyadenylation site were at 1470 and 1486 nt of the 3′ non-coding region. BLAST search of BAN102 sequence showed that coding region of BAN102 gene was the greatest percent similarity with arabinogalactan protein (AGP23) gene from Arabidopsis thaliana. Promoter analysis using GUS gene as a reporter showed that the pollen-specificity of BAN102 resided within the −112 to −44 bp of proximal promoter from the transient expression in tobacco and Chinese cabbage plants.     

Expression of a ferredoxin-dependent glutamate synthase gene in mesophyll and vascular cells and functions of the enzyme in ammonium assimilation in Nicotiana tabacum (L.)

GLU1 encodes the major ferredoxin-dependent glutamate synthase (Fd-GOGAT, EC 1.4.7.1) in Arabidopsis thaliana (ecotype Columbia). With the aim of providing clues on the role of Fd-GOGAT, we analyzed the expression of Fd-GOGAT in tobacco (Nicotiana tabacum L. cv. Xanthi). The 5′ flanking element of GLU1 directed the expression of the uidA reporter gene in the palisade and spongy parenchyma of mesophyll, in the phloem cells of vascular tissue and in the roots of tobacco. White light, red light or sucrose induced GUS expression in the dark-grown seedlings in a pattern similar to the GLU1 mRNA accumulation in Arabidopsis. The levels of GLU2 mRNA encoding the second Fd-GOGAT and NADH-glutamate synthase (NADH-GOGAT, EC 1.4.1.14) were not affected by light. Both in the light and in darkness, ¹⁵NH₄⁺ was incorporated into [5−¹⁵N]glutamine and [2−¹⁵N]glutamate by glutamine synthetase (GS, EC 6.3.1.2) and Fd-GOGAT in leaf disks of transgenic tobacco expressing antisense Fd-GOGAT mRNA and in wild-type tobacco. In the light, low level of Fd-glutamate synthase limited the [2−¹⁵N]glutamate synthesis in transgenic leaf disks. The efficient dark labeling of [2−¹⁵N]glutamate in the antisense transgenic tobacco leaves indicates that the remaining Fd-GOGAT (15–20% of the wild-type activity) was not the main limiting factor in the dark ammonium assimilation. The antisense tobacco under high CO₂ contained glutamine, glutamate, asparagine and aspartate as the bulk of the nitrogen carriers in leaves (62.5%), roots (69.9%) and phloem exudates (53.2%). The levels of glutamate, asparagine and aspartate in the transgenic phloem exudates were similar to the wild-type levels while the glutamine level increased. The proportion of these amino acids remained unchanged in the roots of the transgenic plants. Expression of GLU1 in mesophyll cells implies that Fd-GOGAT assimilates photorespiratory and primary ammonium. GLU1 expression in vascular cells indicates that Fd-GOGAT provides amino acids for nitrogen translocation. The nucleotide sequence data of the GLU1 gene reported in the present study is available from GenBank with the following accession number: AY189525