Developmental regulation of peach ACC oxidase promoter--GUS fusions in transgenic tomato fruits

A genomic DNA sequence (PpACO1) encoding 1-aminocyclopropane-1-carboxylic acid oxidase (ACO) from peach (Prunus persica L. Batsch cv. Loring) was isolated. It has four exons interrupted by three introns and 2.9 kb of flanking region 5' of the translational start codon. Previous work with the cDNA demonstrated that accumulation of the peach ACO message correlated with increasing amounts of ethylene synthesized by the fruit as they ripened. To identify regulatory elements in the peach ACC oxidase gene, chimeric fusions between 403, 610, 901, 1319, 2141, and 2919 bp of the 5' flanking region of the PpACO1 sequence and the beta-glucuronidase (GUS) coding sequence were constructed and used to transform tomato (Lycopersicon esculentum [Mill] cv. Pixie). Fruits from the various promoter lines were analysed for GUS expression by histochemical GUS staining, GUS quantitative enzyme activity determination, and measuring the relative amounts of GUS mRNA. Constructs with the smallest promoter of 403 bp had significant GUS expression in fruit, but not in other tissues, indicating the presence of a region that affects tissue-specific expression. An increase in GUS expression was observed with promoters longer than 901 bp, indicating an enhancer region between -1319 and -901. The full-length promoter of 2919 bp directed GUS expression in the green stage of fruit development, and increased GUS expression as fruit matured, indicating a regulatory region between -2919 and -2141 that controls the temporal expression of the gene in fruit. Only the full-length promoter sequence demonstrated responsiveness to ethylene.     

Activity of the 5′ regulatory regions of the rice polyubiquitin <Emphasis Type="Italic">rubi3</Emphasis> gene in transgenic rice plants as analyzed by both <Emphasis Type="Italic">GUS</Emphasis> and <Emphasis Type="Italic">GFP</Emphasis> reporter genes

Ubiquitin is an abundant protein involved in protein degradation and cell cycle control in plants and rubi3 is a polyubiquitin gene isolated from rice (Oryza sativa L.). Using both GFP and GUS as reporter genes, we analyzed the expression pattern of the rubi3 promoter as well as the effects of the rubi3 5'-UTR (5' untranslated region) intron and the 5' terminal 27 bp of the rubi3 coding sequence on the activity of the promoter in transgenic rice plants. The rubi3 promoter with the 5'-UTR intron was active in all the tissue and cell types examined and supported more constitutive expression of reporter genes than the maize Ubi-1 promoter. The rubi3 5'-UTR intron mediated enhancement on the activity of its promoter in a tissue-specific manner but did not alter its overall expression pattern. The enhancement was particularly intense in roots, pollen grains, inner tissue of ovaries, and embryos and aleurone layers in maturing seeds. The translational fusion of the first 27 bp of the rubi3 coding sequence to GUS gene further enhanced GUS expression directed by the rubi3 promoter in all the tissues examined. The rubi3 promoter should be an important addition to the arsenal of strong and constitutive promoters for monocot transformation and biotechnology.     

A potato Sus3 sucrose synthase gene contains a context-dependent 3' element and a leader intron with both positive and negative tissue-specific effects.

To examine which sequences are involved in regulating the potato sucrose synthase gene Sus3-65, we examined a series of deletion and substitution constructs in transgenic potato and tobacco plants. In a construct containing 3.9 kb of 5' flanking region, substitution of the native 3' sequence with the nopaline synthase 3' sequence and deletion of the leader intron did not significantly affect expression in vegetative tissues. However, in a construct containing only 320 bp of 5' flanking region, these changes had marked effects. Replacing the native 3' sequences with nopaline synthase 3' sequences caused a six- to 20-fold increase in expression in vascular tissue, and removing the leader intron almost completely abolished expression in potato plants. Surprisingly, removal of the leader intron from either the full-length construct or a construct containing only 320 bp of 5' flanking sequence reduced expression in vascular tissue of tobacco anthers at later stages of development but increased expression in pollen by more than 100-fold.     

Promoters of nuclear‐encoded respiratory chain Complex I genes from Arabidopsis thaliana contain a region essential for anther/pollen‐specific expression

Regulatory promoter regions responsible for the enhanced expression in anthers and pollen are defined in detail for three nuclear encoded mitochondrial Complex I (nCI) genes from Arabidopsis thaliana. Specific regulatory elements were found conserved in the 5′ upstream regions between three different genes encoding the 22 kDa (PSST), 55 kDa NADH binding (55 kDa) and 28 kDa (TYKY) subunits, respectively. Northern blot analysis and transgenic Arabidopsis plants carrying progressive deletions of the promoters fused to the β-glucuronidase (GUS) reporter gene by histochemical and fluorimetric methods showed that all three promoters drive enhanced expression of GUS specifically in anther tissues and in pollen grains. In at least two of these promoters the –200/–100 regions actively convey the pollen/anther-specific expression in gain of function experiments using CaMV 35S as a minimal promoter. These nCI promoters thus contain a specific regulatory region responding to the physiological demands on mitochondrial function during pollen maturation. Pollen-specific motifs located in these regions appear to consist of as little as seven nucleotides in the respective promoter context.     

拟南芥AtNHX6基因启动子的克隆及表达分析

为了探明拟南芥内膜反向转运体AtNHX6基因的组织表达模式,从基因组中克隆了AtNHX6基因开放阅读框(ORF)上游侧翼调控区1 922bp序列,并成功构建AtNHX6基因启动子与GUS融合表达载体pCAM-BIA1381-proNHX6-GUS,通过农杆菌花序浸染法转化野生型拟南芥获得T3代纯合转基因拟南芥株系,经PCR检测扩增得到2 187bp目的条带。利用组织染色法鉴定转基因拟南芥的GUS表达模式发现,在子叶、下胚轴和花中GUS活性显著。在这些广泛表达的部位中,微管系统中的表达最为显著,真叶中只有局部检测到GUS表达;在根中GUS在根毛和侧根生长部位表达;在未成熟果荚中只有在果荚顶端和基部存在GUS活性,成熟果荚中只在果柄检测到GUS表达;在花中,雄蕊的花丝和花粉粒及雌蕊的柱头中检测到GUS表达。GUS染色分析结果表明,AtNHX6基因启动子与GUS的融合表达载体成功构建并正常启动GUS基因表达,且AtNHX6基因主要在拟南芥的子叶、下胚轴、根、花、果荚中的微管系统、根毛和侧根生长部位以及花丝、花粉、柱头中表达。     

Semi-constitutive expression of an Arabidopsis thaliana α-tubulin gene

In Arabidopsis tissues, the pool of tubulin protein is provided by the expression of multiple -tubulin and -tubulin genes. Previous evidence suggested that the TUA2 -tubulin gene was expressed in all organs of mature plants. We now report a more detailed analysis of TUA2 expression during plant development. Chimeric genes containing TUA2 5-flanking DNA fused to the -glucuronidase (GUS) coding region were used to create transgenic Arabidopsis plants. Second-generation progeny of regenerated plants were analyzed by histochemical assay to localize GUS expression. GUS activity was seen throughout plant development and in nearly all tissues. The blue product of GUS activity accumulated to the highest levels in tissues with actively dividing and elongating cells. GUS activity was not detected in a few plant tissues, suggesting that, though widely expressed, the TUA2 promoter is not constitutively active.     

Isolation and Characterization of Three New Promoters from Gossypium hirsutum that Show High Activity in Reproductive Tissues

Engineering of plant protection requires well-characterized tissue-specific promoters for the targeted expression of insecticidal resistance genes. Herein, we describe the isolation of five different fragments of promoters of three distinct flower-specific cotton (Gossypium hirsutum) genes. Expression analyses of the three genes GhPME-like1, GhβGal-like1 and GhPL-like1 revealed that they are expressed highly in flowers buds ranging from 4 to 12 mm in size. Several putative regulatory cis-elements were identified in the promoter regions, including elements involved in the control of tissue-specific gene expression in pollen grains and fruits. In vivo analyses of these promoters were performed using the heterologous plant system Arabidopsis thaliana by fusing them with the gene uidA (GUS). GUS staining in Arabidopsis tissues revealed that their expression was restricted to anthers, with the majority of expression in pollen grains and in the upper portion of the carpels and siliques. A comparison between a CaMV35S::GUS constitutive promoter and the promoters isolated in this study revealed that the cotton promoters were more active and were specific to flowers and fruits, which are organs that are preferentially attacked by important pest insects such as the boll weevil (Anthonomus grandis). The activity of the promoters was also confirmed using transient expression assays in flower buds of G. hirsutum. The promoters of GhPME-like1, GhβGal-like1 and GhPL-like1 are specific to reproductive tissues and could represent important biotechnological tools for controlling insect pests, in particular the cotton boll weevil, which attacks floral and fruit tissues.     

Pollen-specific gene expression in transgenic plants: coordinate regulation of two different tomato gene promoters during microsporogenesis

To investigate the regulation of gene expression during male gametophyte development, we analyzed the promoter activity of two different genes (LAT52 and LAT59) from tomato, isolated on the basis of their anther-specific expression. In transgenic tomato, tobacco and Arabidopsis plants containing the LAT52 promoter region fused to the beta-glucuronidase (GUS) gene, GUS activity was restricted to pollen. Transgenic tomato, tobacco and Arabidopsis plants containing the LAT59 promoter region fused to GUS also showed very high levels of GUS activity in pollen. However, low levels of expression of the LAT59 promoter construct were also detected in seeds and roots. With both constructs, the appearance of GUS activity in developing anthers was correlated with the onset of microspore mitosis and increased progressively until anthesis (pollen shed). Our results demonstrate co-ordinate regulation of the LAT52 and LAT59 promoters in developing microspores and suggest that the mechanisms that regulate pollen-specific gene expression are evolutionarily conserved.     

Regulation of BN115, a low-temperature-responsive gene from winter Brassica napus.

The genomic clone for BN115, a low-temperature-responsive gene, was isolated from winter Brassica napus and its sequence was determined. A 1.2-kb fragment of the 5' regulatory region (from bp -1107 to +100) was fused to the beta-glucuronidase (GUS) reporter gene and BN115-promoted GUS expression was observed in green tissues of transgenic B. napus plants only after incubation at 2 degrees C. No expression was observed after incubation at 22 degrees C, either in the presence or the absence of ABA. Microprojectile bombardment of winter B. napus leaves with a BN115 promoter/GUS construct yielded similar results and was used to analyze a series of deletions from the 5' end of the promoter. Results obtained from transient expression studies showed that the low-temperature regulation of BN115 expression involves a possible enhancer region between bp -1107 and -802 and a second positive regulatory region located between bp -302 and -274. Deletion analyses and results from replacement with a truncated cauliflower mosaic virus 35S promoter suggest that the minimal size required for any maintenance of low-temperature GUS expression is a -300-bp fragment. Within this fragment are two 8-bp elements with the sequence TGGCCGAC, which are identical to those present in the positive regulatory region of the promoter of the homologous Arabidopsis cor15a gene and to a 5-bp core sequence in the low-temperature- and dehydration-responsive elements identified in the promoter regions of several cold-responsive Arabidopsis thaliana genes.