Distinct cis-acting elements direct the germination and sugar responses of the cucumber malate synthase gene

The malate synthase gene (ms) promoter in cucumber (Cucumis sativus L.) was investigated with the aim of distinguishing DNA sequences mediating regulation of gene expression by sugar, and expression following seed germination. Promoter deletions were constructed and their ability to direct expression of the-glucuronidase (gus) reporter gene was investigated in transgenicNicotiana plumbaginifolia. Gene expression was assayed in germinating seeds and developing seedlings (the germination response) and in seedlings transferred from light into darkness with and without sucrose (the sugar response). As progressively more of the promoter was deleted from the 5 end, first the sugar response and then the germination response was lost. Thus, distinct regions of the promoter are required for carbohydrate control and for regulation of gene expression in response to germination. Sequence comparisons of thems promoter with that of the isocitrate lyase gene (icl) of cucumber have previously identified four IMH (ICL-MS Homology) sequences. One such sequence, IMH2, is shown here to be implicated in the sugar response of thems gene. The 17 bp sequence, which when deleted from thems gene results in loss of the germination response, contains a 14 bp sequence which is similar to a sequence in theicl promoter, which we refer to as IMH5. Furthermore, this sequence has similarity withamdI9-like sequences in filamentous fungi, which conferfacB-mediated acetate inducibility on several genes, including those encoding ICL and MS.     

The nitrate reductase promoter of birch directs differential reporter gene expression in tissues of transgenic tobacco

A 1535 bp promoter of the nitrate reductase gene (nia) from birch (Betula pendula) and a series of 5′ deletions were fused to the β-glucuronidase (GUS) gene and introduced into Nicotiana plumbaginifolia. In transgenic plants the NR promoter sequences directed strong GUS expression in the root epidermal hair cells, and in phloem cells of leaf and stem vascular tissue. The NR promoter confers also a significant stimulation of the GUS gene expression by nitrate. These findings might indicate that nitrate flow is one of the signals involved into tissue and cell specific expression of the NR promoter GUS fusions. This revised version was published online in June 2006 with corrections to the Cover Date.     

A seed coat outer integument-specific promoter for Brassica napus

In search for seed coat-specific promoters for canola (Brassica napus), transgenic plants carrying a 2,121 bp fragment of Arabidopsis thaliana At4g12960 promoter (AtGILTpro) fused to the uidA reporter gene (GUS) were generated. Out of 7 independent events in transgenic canola plants raised, 2 exhibited GUS activity exclusively in the outer integument of the seed coat. GUS activity in other tissues was also observed in the remaining five transformants. Therefore, the AtGILT promoter can be used as a canola seed coat outer integument-specific promoter after the generation and selection of desired transformants from several transgenic lines.     

Isolation and characterization of <Emphasis Type="Italic">Brittle2</Emphasis> promoter from <Emphasis Type="Italic">Zea Mays</Emphasis> and its comparison with <Emphasis Type="Italic">Ze19</Emphasis> promoter in transgenic tobacco plants

ADP-glucose pyrophosphorylase (AGPase) represents a key regulatory step in starch synthesis. A 0.9 kb of 5′ flanking region preceding Brittle2 gene, encoding the small subunit of maize endosperm AGPase, was cloned from maize genome and its expression pattern was studied via the expression of β-glucuronidase (GUS) gene in transgenic tobacco. Analysis of GUS activities showed that the 0.9 kb fragment flanking Brittle2 gene was sufficient for driving the seed-preferred expression of the reporter gene. The activity of the 0.9 kb 5′ flanking fragment was compared with that of the tandem promoter region from a zein gene (zE19, encoding a maize 19 kDa zein protein). The results indicated that both promoters were seed-preferred in a dicotyledonous system as tobacco and the activity of zE19 promoter was three to fourfold higher than that of the 0.9 kb fragment flanking Brittle2 gene in transgenic tobacco seeds. At the same time, zE19-driven GUS gene expressed earlier than Brittle2 promoter during seed development. Histochemical location of GUS activity indicated that both promoters showed high expression in embryos, which is different from similar promoters tested in maize.     

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。     

Cotton α-Globulin Promoter: Isolation and Functional Characterization in Transgenic Cotton,Arabidopsis, and Tobacco

Globulins are the most abundant seed storage proteins in cotton and, therefore, their regulatory sequences could potentially provide a good source of seed-specific promoters. We isolated the putative promoter region of cotton -globulin B gene by gene walking using the primers designed from a cotton staged embryo cDNA clone. PCR amplified fragment of 1108 bp upstream sequences was fused to gusA gene in the binary vector pBI101.3 to create the test construct. This was used to study the expression pattern of the putative promoter region in transgenic cotton, Arabidopsis, and tobacco. Histochemical GUS analysis revealed that the promoter began to express during the torpedo stage of seed development in tobacco and Arabidopsis, and during cotyledon expansion stage in cotton. The activity quickly increased until embryo maturation in all three species. Fluorometric GUS analysis showed that the promoter expression started at 12 and 15 dpa in tobacco and cotton, respectively, and increased through seed maturation. The strength of the promoter expression, as reflected by average GUS activity in the seeds from primary transgenic plants, was vastly different amongst the three species tested. In Arabidopsis, the activity was 16.7% and in tobacco it was less than 1% of the levels detected in cotton seeds. In germinating seedlings of tobacco and Arabidopsis, GUS activity diminished until it was completely absent 10 days post imbibition. In addition, absence of detectable level of GUS expression in stem, leaf, root, pollen, and floral bud of transgenic cotton confirmed that the promoter is highly seed-specific. Analysis of GUS activity at individual seed level in cotton showed a gene dose effect reflecting their homozygous or hemizygous status. Our results show that this promoter is highly tissue-specific and it can be used to control transgene expression in dicot seeds.     

Promoters for pregenomic RNA of banana streak badnavirus are active for transgene expression in monocot and dicot plants

Two putative promoters from Australian banana streak badnavirus (BSV) isolates were analysed for activity in different plant species. In transient expression systems the My (2105 bp) and Cv (1322 bp) fragments were both shown to have promoter activity in a wide range of plant species including monocots (maize, barley, banana, millet, wheat, sorghum), dicots (tobacco, canola, sunflower, Nicotiana benthamiana, tipu tree), gymnosperm (Pinus radiata) and fern (Nephrolepis cordifolia). Evaluation of the My and Cv promoters in transgenic sugarcane, banana and tobacco plants demonstrated that these promoters could drive high-level expression of either the green fluorescent protein (GFP) or the -glucuronidase (GUS) reporter gene (uidA) in vegetative plant cells. In transgenic sugarcane plants harbouring the Cv promoter, GFP expression levels were comparable or higher (up to 1.06% of total soluble leaf protein as GFP) than those of plants containing the maize ubiquitin promoter (up to 0.34% of total soluble leaf protein). GUS activities in transgenic in vitro-grown banana plants containing the My promoter were up to seven-fold stronger in leaf tissue and up to four-fold stronger in root and corm tissue than in plants harbouring the maize ubiquitin promoter. The Cv promoter showed activities that were similar to the maize ubiquitin promoter in in vitro-grown banana plants, but was significantly reduced in larger glasshouse-grown plants. In transgenic in vitro-grown tobacco plants, the My promoter reached activities close to those of the 35S promoter of cauliflower mosaic virus (CaMV), while the Cv promoter was about half as active as the CaMV 35S promoter. The BSV promoters for pregenomic RNA represent useful tools for the high-level expression of foreign genes in transgenic monocots.     

花生小GTP结合蛋白基因AhRabG3f启动子的盐胁迫响应元件分析

为研究花生小GTP结合蛋白基因AhRabG3f对盐胁迫响应的分子机制,文中克隆了花生AhRabG3f基因起始密码子上游1 914 bp的启动子片段(3f-P)。将该启动子5''末端截短获得5个片段(3f-P1-3f-P5),长度分别为1 729、1 379、666、510、179 bp。构建了将这6个启动子片段与gus基因融合的植物表达载体,利用农杆菌介导法转化烟草。对转基因烟草进行GUS表达分析和酶活性检测,结果表明,在转入各启动子片段的烟草中,都能检测到gus基因的表达,其中全长启动子3f-P的驱动活性最弱,而截短片段3f-P3的驱动活性最强。对转基因烟草进行盐胁迫处理后,3f-P、3f-P1、3f-P2和3f-P3所驱动GUS酶活性是未经盐诱导的3.3、1.2、1.9、1.2倍,表明AhRabG3f启动子是盐诱导型的,在3f-P至3f-P3之间可能存在对盐响应的正调控元件。通过对盐胁迫处理后各启动子片段驱动的GUS活性分析,推测在AhRabG3f启动子上游1 930–1 745 bp、682–526 bp之间存在可能对盐响应的正调控元件MYB、GT1和富含TC的重复序列,1 395–682 bp之间存在可能对盐响应的负调控元件MYC。研究结果可为利用诱导型启动子调控花生的耐盐性提供指导。     

Metabolic regulation of α-amylase gene expression in transgenic cell cultures of rice (Oryza sativa L.)

Expression of two genes in the -amylase gene family is controlled by metabolic regulation in rice cultured cells. The levels of RAmy3D and RAmy3E mRNAs in rice cultured cells are inversely related to the concentration of sugar in the culture medium. Other genes in the rice -amylase gene family have little or no expression in cultured cells; these expression levels are not controlled by metabolic regulation. A RAmy3D promoter/GUS gene fusion was metabolically regulated in the transgenic rice cell line 3DG, just as the endogenous RAmy3D gene is regulated. An assay of GUS enzyme activity in 3DG cells demonstrated that RAmy3D/GUS expression is repressed when sugar is present in the culture medium and induced when sugar is removed from the medium. The 942 bp fragment of the RAmy3D promoter that was linked to the coding region of the GUS reporter gene thus contains all of the regulatory sequences necessary for metabolic regulation of the gene.     

大麦与油菜种皮特异启动子表达模式的比较

启动子位于转录起始位点上游并能特异性地结合RNA聚合酶,其作为调控序列驱动外源基因在异源植物中表达,从而实现转基因的高效性,具有时空表达特异性的启动子对获得有效转基因植物及产物具有重要意义。为了解种皮特异启动子的表达模式,该研究基于前期报道的序列,通过同源克隆的方法分别从大麦和油菜中克隆获得Gerb和Bntt两个种皮特异性启动子,并对其进行生物信息学分析,构建了Gerb::GUS和Bntt::GUS植物表达载体并转化拟南芥,通过组织化学染色观察了GUS的表达情况。结果表明:两种启动子序列中都含有多拷贝种皮特异表达启动子元件以及多种胁迫诱导响应元件;转基因拟南芥幼苗期,大麦Gerb种皮特异启动子驱动GUS全株表达且子叶和下胚轴较真叶和根中表达量高;油菜Bntt种皮特异启动子表达较弱;成株期,Gerb在不同组织(叶片、茎、花序和角果)中均有表达,未显示组织特异性;Bntt仅在叶片及角果维管束中有微弱表达。在各种非生物胁迫下,Gerb表达模式未发生显著变化,而Bntt仅在盐胁迫下显示很强的角果和种子特异性表达,其他胁迫未见明显表达。以上结果显示,大麦种皮特异性启动子Gerb和油菜种皮特异性启动子Bntt在时间和空间表达模式上存在差异,这对今后选择种皮特异启动子具有参考作用,但其具体机制仍需进一步研究验证。     

Development and characterization of a chimaeric tissue-specific promoter in wheat and rice endosperm

The recently achieved significant improvement of cereal transformation protocols provides facilities to alter the protein composition of the endosperm, for example, to increase or decrease the quantity of one of its protein components or to express foreign molecules. To achieve this goal, strong endosperm-specific promoters have to be available. The aim of our work was to develop a more efficient tissue-specific promoter which is currently used. A chimaeric promoter was assembled using the 5′ UTR (1,900 bp) of the gene coding for the 1Bx17 HMW glutenin subunit protein, responsible for tissue-specific expression and the first intron of the rice actin gene (act1). The sequence around of the translation initial codon was optimized. The effect of the intron and promoter regulatory sequences, using different lengths of 1Bx17 HMW-GS promoter, were studied on the expression of uidA gene. The function of promoter elements, promoter length, and the first intron of the rice actin gene were tested by a transient expression assay in immature wheat endosperm and in stable transgenic rice plants. Results showed that insertion of the rice act1 first intron increased GUS expression by four times in transient assay. The shortest 1Bx17 HMW-GS promoter fragment (173 bp) linked to the intron and GUS reporter gene provided almost the same expression level than the intronless long 1Bx17 HMW-GS promoter. Analysis of the stable transformant plants revealed that 173 nucleotides were sufficient for endosperm-specific expression of the uidA gene, despite 13 nucleotides missing from the HMW enhancer sequence, a relevant regulatory element in the promoter region.