Expression pattern and activity of six glutelin gene promoters in transgenic rice

The shortage of strong endosperm-specific expression promoters for driving the expression of recombinant protein genes in cereal endosperm is a major limitation in obtaining the required level and pattern of expression. Six promoters of seed storage glutelin genes (GluA-1, GluA-2, GluA-3, GluB-3, GluB-5, and GluC) were isolated from rice (Oryza sativa L.) genomic DNA by PCR. Their spatial and temporal expression patterns and expression potential in stable transgenic rice plants were examined with beta-glucuronidase (GUS) used as a reporter gene. All the promoters showed the expected spatial expression within the endosperm. The GluA-1, GluA-2, and GluA-3 promoters directed GUS expression mainly in the outer portion (peripheral region) of the endosperm. The GluB-5 and GluC promoters directed GUS expression in the whole endosperm, with the latter expressed almost evenly throughout the whole endosperm, a feature different from that of other rice glutelin gene promoters. The GluB-3 promoter directed GUS expression solely in aleurone and subaleurone layers. Promoter activities examined during seed maturation showed that the GluC promoter had much higher activity than the other promoters. These promoters are ideal candidates for achieving gene expression for multiple purposes in monocot endosperm but avoid promoter homology-based gene silencing. The GluC promoter did not contain the endosperm specificity-determining motifs GCN4, AACA, and the prolamin-box, which suggests the existence of additional regulatory mechanism in determining endosperm specificity.     

水稻谷蛋白GluA-2基因5′上游序列控制下的UidA基因在转基因水稻胚乳中的表达模式

为了研究谷蛋白胚乳特异性表达启动子在我国栽培稻品种中的表达模式,将UidA基因分别置于水稻谷蛋白GluA—2基因750bp和2．3kb上游序列下游,利用农杆菌转化法导人栽培稻品种中花8号并获得转基因植株。Southern blot检测表明,UidA基因已经整合到水稻基因组当中并以单拷贝存在。Northern blot检测表明,开花后13～15d和11～13d,UidA基因和水稻内源的GluA—2基因的表达量分别达到最高,随后逐渐降低。对转基因植株种子的GUS染色表明,UidA基因仅在胚乳中表达,在糊粉层中GUS表达量最高。测定了2．3kb和750bp转基因植株种子的GUS活性,结果表明前者的GUS活性是后者的2～3倍。序列分析表明,位于GluA—2基因转录启始位点上游2170bD的G-box可能是一个与表达量相关的顺式调控元件。     

从水稻细胞质型果糖-1,6-二磷酸酶启动子上游中去除93 bp可以彻底改变其表达模式

细胞质型果糖-1,6-二磷酸基因ATG上游1 195bp侧翼序列可调控GUS基因在水稻(Oryza sativa L.)中特异性表达,因此该片段包含有使报告基因在叶肉细胞中特异性表达的所有顺式元件.为了研究其调控特异表达的顺式元件,对启动子5′端进行了一系列的缺失,得到4种与GUS基因融合的植物表达载体,通过基因枪法转入水稻.结果表明,自启动子5′端-1 195 bp缺失至-1 102 bp时,GUS基因由叶肉细胞特异性表达变为组成型表达,且表达活性有所提高,推测在该区段中存在调控叶肉细胞特异性表达的顺式元件.进一步缺失仍然保持组成性表达的模式,即在转化株的根、茎和叶中的所有细胞中均有表达,同时启动子活性有所提高.这一结果暗示该启动子具有很大的应用潜力.     

Evidence for a role of β-1,3-glucanase in dicot seed germination

Class I β-1,3-glucanases are antifungal vacuolar proteins implicated in plant defense that show developmental, hormonal, and pathogenesis-related regulation. The expression was studied in germinating tobacco seeds of a chimeric β-glucuronidase (GUS) reporter gene fused to 1.6 kb of the 5' flanking sequence of the tobacco class I β-1,3-glucanase B (GLB) promoter. Histological staining for GUS activity showed that expression of the GLB promoter is highly localized in a specific zone of the endosperm in germinating seeds. The temporal and spatial patterns of GUS and β-1,3-glucanase activity found, suggest a novel function for class I β-1,3-glucanases during seed germination in a dicotyledonous plant.     

Cloning and promoter analysis of the cotton lipid transfer protein gene Ltp3

A cotton Ltp3 gene and its 5′ and 3′ flanking regions have been cloned with a PCR-based genomic DNA walking method. The amplified 2.6 kb DNA fragment contains sequences corresponding to GH3 cDNA which has been shown to encode a lipid transfer protein (LTP3). The gene has an intron of 80 bp which is located in the region corresponding to the C-terminus of LTP3. The Ltp3 promoter was systematically analyzed in transgenic tobacco plants by employing the Escherichia coli β-glucuronidase gene (GUS) as a reporter. The results of histochemical and fluorogenic GUS assays indicate that the 5′ flanking region of the Ltp3 gene contains cis-elements conferring the trichome specific activity of Ltp3 promoter.     

Investigation of the endosperm-specific sucrose synthase promoter from rice using transient expression of reporter genes in guar seed tissue

We report the investigation of an endosperm-specific promoter from the rsus3 gene from rice (Oryza sativa). The promoter was characterized by deletion analysis and transient expression in guar (Cyamopsis tetragonoloba) seed-tissue. Transient expression was monitored by histochemical GUS assay, and quantitative dual reporter assays comprising firefly luciferase as a test reporter, and Renilla luciferase and GUS as reference reporters. These revealed high expression levels of the reporter genes directed by the rsus3 promoter in guar endosperm. Specificity for this tissue in seeds was apparent from a virtual absence of reporter activity in guar cotyledons. Removal of a putative intron region only slightly raised the expression level, whereas duplication of the minimal promoter region, in a tandem-repeat rsus3 promoter construct, retained endosperm specificity in guar, and displayed three times the reporter activity observed with the single copy construct.     

The pea plastocyanin promoter directs cell-specific but not full light-regulated expression in transgenic tobacco plants

A series of 5′ deletions of the pea plastocyanin gene (petE) promoter fused to the β-glucuronidase (GUS) reporter gene has been examined for expression in transgenic tobacco plants. Strong positive and negative cis-elements which modulate quantitative expression of the transgene in the light and the dark have been detected within the petE promoter. Disruption of a negative regulatory element at ?784 bp produced the strongest photosynthesis-gene promoter so far described. Histochemical analysis demonstrated that all petE-GUS constructs directed expression in chloroplast-containing cells, and that a region from ?176 bp to +4 bp from the translation start site was sufficient for such cell-specific expression. The petE-promoter fusions were expressed at high levels in etiolated transgenic tobacco seedlings but there was no marked induction of GUS activity in the light. The endogenous tobacco plastocyanin genes and the complete pea plastocyanin gene in transgenic tobacco plants were also expressed in the dark, but showed a three- to sevenfold increase in the light. This indicates a requirement for sequences 3′ to the promoter for the full light response of the petE gene.     

麻疯树MIPS基因启动子的分离及在烟草原生质体中瞬时表达活性分析

根据麻疯树MIPS基因序列,设计特异性的巢式引物,运用TAIL-PCR法两次步移得到MIPS基因5＇端侧翼序列,序列分析显示含有多个胁迫应答相关元件,如ABRE、HSE等。以该序列为基础,PCR扩增得到5个5＇端不同长度的缺失片段,分别插入pBI221载体置换CaMV35S启动子,构建的表达载体在PEG介导下转入烟草叶片原生质体进行瞬时表达,检测GUS报告基因的活性。经GUS活性荧光定量检测发现,分离到的MIPS基因侧翼序列5＇端不同缺失片段都能启动GUS报告基因表达,启动活性最高的是WQ1区（-565bp）,核心区位于-565～-449bp。在100μmol·L-1ABA诱导下启动活性增强,但不同区段的增长幅度不同。WQ1区增长幅度最大,比未处理时提高41.4%。     

Deletion analysis of a 2S seed storage protein promoter of Brassica napus in transgenic tobacco

The promoter and upstream region of the Brassica napus 2S storage protein napA gene were studied to identify cis-acting sequences involved in developmental seed-specific expression. Fragments generated by successive deletions of the 5 control region of the napA gene were fused to the reporter gene -glucuronidase (GUS). These constructs were used to transform tobacco leaf discs. Analyses of GUS activities in mature seeds from the transformed plants indicated that there were both negatively and positively acting sequences in the napin gene promoter. Deletion of sequences between –1101 and –309 resulted in increased GUS activity. In contrast, deletion of sequences between –309 and –211 decreased the expression. The minimum sequence required for seed-specific expression was a 196 bp fragment between –152 and +44. Further 5 deletion of the fragment to –126 abolished this activity. Sequence comparison showed that a G box-like sequence and two sequence motifs conserved between 2S storage protein genes are located between –148 to –120. Histochemical and fluorometric analysis of tobacco seeds showed that the spatial and developmental expression pattern was retained in the deletion fragments down to –152. However, the expression in tobacco seeds differed from the spatial and temporal expression in B. napus. In tobacco, the napA promoter directed GUS activity early in the endosperm before any visible activity could be seen in the heart-shaped embryo. Later, during the transition from heart to torpedo stages, the main expression of GUS was localized to the embryo. No significant GUS activity was found in either root or leaf.     

Isolation of a 1 195 bp 5′-Flanking Region of Rice Cytosolic Fructose-1,6-bisphosphatase and Analysis of Its Expression in Transgenic Rice

A genomic DNA fragment containing the 5′-upstream sequence and part of the open reading frame corresponding to the cytosolic fructose-1,6-bisphosphatase (cyFBPase) cDNA was isolated by Genome Walking. The 1 195 bp 5′-flanking region which started from the translation initiation ATG codon was fused to reporter gene encoding β-glucuronidase (GUS) and stably transferred to rice via particle bombardment. Strong GUS activity was detected in leaves and leaf sheaths of transgenic rice, but not in culms and roots. Histochemical localization revealed that GUS expression was exclusively restricted to mesophyll cells in transgenic rice. Our results indicate that the 1 195 bp fragment contains all the cis-elements required for directing mesophyll-specific expression pattern in rice. Key words: rice (Oryza sativa); promoter;　cytosolic fructose-1,6-bisphosphatase gene; mesophyll-specific expression     

Functional dissection of a napin gene promoter: identification of promoter elements required for embryo and endosperm-specific transcription

The promoter region (?309 to +44) of the Brassica napus storage protein gene napA was studied in transgenic tobacco by successive 5′ as well as internal deletions fused to the reporter gene GUS (β-glucuronidase). The expression in the two main tissues of the seed, the endosperm and the embryo, was shown to be differentially regulated. This tissue-specific regulation within the seed was found to affect the developmental expression during seed development. The region between ?309 to ?152, which has a large effect on quantitative expression, was shown to harbour four elements regulating embryo and one regulating endosperm expression. This region also displayed enhancer activity. Deletion of eight bp from position ?152 to position ?144 totally abolished the activity of the napA promoter. This deletion disrupted a cis element with similarity to an ABA-responsive element (ABRE) overlapping with an E-box, demonstrating its crucial importance for quantitative expression. An internal deletion of the region ?133 to ?120, resulted in increased activity in both leaves and endosperm and a decreased activity in the embryo. Within this region, a cis element similar to the (CA)_n element, found in other storage protein promoters, was identified. This suggest that the (CA)_n element is important for conferring seed specificity by serving both as an activator and a repressor element.