Evaluation of tissue specificity and expression strength of rice seed component gene promoters in transgenic rice

Using stable transgenic rice plants, the promoters of 15 genes expressed in rice seed were analysed for their spatial and temporal expression pattern and their potential to promote the expression of recombinant proteins in seeds. The 15 genes included 10 seed storage protein genes and five genes for enzymes involved in carbohydrate and nitrogen metabolism. The promoters for the glutelins and the 13 kDa and 16 kDa prolamins directed endosperm-specific expression, especially in the outer portion (peripheral region) of the endosperm, whilst the embryo globulin and 18 kDa oleosin promoters directed expression in the embryo and aleurone layer. Fusion of the GUS gene to the 26 kDa globulin promoter resulted in expression in the inner starchy endosperm tissue. It should be noted that the 10 kDa prolamin gene was the only one tested that required both the 5' and 3' flanking regions for intrinsic endosperm-specific expression. The promoters from the pyruvate orthophosphate dikinase (PPDK) and ADP-glucose pyrophosphorylase (AGPase) small subunit genes were active not only in the seed, but also in the phloem of vegetative tissues. Within the seed, the expression from these two promoters differed in that the PPDK gene was only expressed in the endosperm, whereas the AGPase small subunit gene was expressed throughout the seed. The GUS reporter gene fused to the alanine aminotransferase (AlaAT) promoter was expressed in the inner portion of the starchy endosperm, whilst the starch branching enzyme (SBE1) and the glutamate synthase (GOGAT) genes were mainly expressed in the scutellum (between the endosperm and embryo). When promoter activities were examined during seed maturation, the glutelin GluB-4, 26 kDa globulin and 10 kDa and 16 kDa prolamin promoters exhibited much higher activities than the others. The seed promoters analysed here exhibited a wide variety of activities and expression patterns, thus providing many choices suitable for various applications in plant biotechnology.     

Promoters of Rice Seed Storage Protein Genes Direct Endosperm-Specific Gene Expression in Transgenic Rice

The promoters of genes encoding rice seed storage proteins (glutelin,prolamin, globulin and albumin) were analyzed for their abilityto direct rß-gIucuronidase (GUS) gene expression intransgenic rice plants. All promoters tested could direct endosperm-specificexpression of the GUS reporter gene irrespective of variableactivities and patterns in the endosperm. (Received February 27, 1998; Accepted May 16, 1998)     

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。     

Genomic DNA sequences of two new genes for new storage protein glutelin in rice.

A new cDNA and two genomic genes encoding the rice storage protein glutelin were isolated and sequenced. The nucleotide sequence of one gene (GluA-3) was completely identical with that of the new cDNA identified here, and the other (GluA-4) was a pseudogene. These glutelin genes were closely related to each other, and belonged to the subfamily A containing the type I (GluA-1) and II (GluA-2) glutelin genes. The Northern blot analysis, using synthetic oligonucleotide specific to the GluA-3 gene as a probe, showed that this gene was expressed earlier than other glutelin genes during seed maturation.     

Glutelin subtype-dependent protein localization in rice grain evidenced by immunodetection analyses

Plant Molecular Biology - GluA and GluB-4/5 glutelin subfamilies are mainly localized to outer region of the endosperm, particularly in its ventral side, in rice grain, but GluC is localized to...     

In situ Western hybridization: a new,highly sensitive technique to detect foreign and endogenous protein distribution in rice seeds

We have developed a highly sensitive in situ Western hybridization technique to study tissue-specific expression of foreign and endogenous genes in transgenic and non-transformed rice seed. The expression pattern of the soybean ferritin gene directed by a rice glutelin gene promoter, GluB-1, in transgenic rice seed revealed by this method was exactly the same as that revealed by immunological tissue printing but much clearer than the latter, and corresponded well to the results of GluB-1 promoter characterization studies. This method provides an alternative choice for studying the tissue-specific expression of a promoter, omitting the complicated transgenic procedure. The method can also be used to study the expression and accumulation pattern of endogenous genes, such as glutelin and prolamine genes, in non-transformed plants.Abbreviations DAF Days after flowering - GUS -Glucuronidase - GFP Green fluorescent protein - TBS Tris-HCl-buffered saline - TBST TBS with Tween-20Communicated by H. Ebinuma     

Tissue-specific expression in transgenic maize of four endosperm promoters from maize and rice

The tissue-specific, developmental, and genetic control of four endosperm-active genes was studied via expression of GUS reporter genes in transgenic maize plants. The transgenes included promoters from the maize granule-bound starch synthase (Waxy) gene (zmGBS), a maize 27 kDa zein gene (zmZ27), a rice small subunit ADP-glucose pyrophosphorylase gene (osAGP) and the rice glutelin 1 gene (osGT1). Most plants had a transgene expression profile similar to that of the endogenous gene: expression in the pollen and endosperm for the zmGBS transgene, and endosperm only for the others. Histological analysis indicated expression initiated at the periphery of the endosperm for zmGBS, zmZ27 and osGT1, while osAGP transgene activity tended to start in the lower portion of the seed. Transgene expression at the RNA level was proportional to GUS activity, and did not influence endogenous gene expression. Genetic analysis showed that there was a positive dosage response with most lines. Activity of the zmGBS transgene was threefold higher in a low starch (shrunken2) genetic background. This effect was not seen with zmZ27 or osGT1 transgenes. The expression of the transgenes is discussed relative to the known behaviour of the endogenous genes, and the developmental programme of the maize endosperm     

A novel endosperm transfer cell-containing region-specific gene and its promoter in rice

The endosperm of cereal grains is an important resource for both food and feed. It contains three major types of tissue: starchy endosperm, the aleurone layer, and transfer cells. To improve grain quality and quantity using molecular methods, control of transgene expression directed by distinct temporal and spatial promoter activity is necessary. To identify aleurone layer-specific and/or transfer cell-specific promoters in rice, microarray analyses were performed, comparing the aleurone layer containing transfer cells and the other reproductive and vegetative tissues. After confirmation by RT-PCR analysis, we identified two putative aleurone layer and/or transfer cell-specific genes, AL1 and AL2. The promoter regions of these genes and β-glucuronidase (GUS) fusion constructs were stably transformed into rice. The GUS expression patterns indicated that the AL1 promoter was active exclusively in the dorsal aleurone layer adjacent to the main vascular bundle. In rice, transfer cells are differentiated in this region. Therefore, the promoter of the AL1 gene exhibits transfer cell-containing region-specific activity. The AL1 gene encodes a putative anthranilate N-hydroxycinnamoyl/benzoyltransferase. The promoter of this gene will be useful for enhancing uptake of nutrients from the mother cells and protecting filial seeds from pathogen attack.     

Pollen- and anther-specific chi promoters from petunia: tandem promoter regulation of the chiA gene.

We have analyzed the spatial and temporal activities of chalcone flavanone isomerase (chi) A and B gene promoters from petunia. To study the tandem promoter regulation of chiA, various chiA promoter fragments were fused with the beta-glucuronidase (GUS) reporter gene. Analysis of transgenic plants containing these chimeric genes provided definitive proof that the chiA coding region is regulated by two distinct promoters (designated PA1 and PA2). We also showed that both promoters can function independently and that the chiA PA1 promoter is expressed in limb (epidermal and parenchyma cells), tube (inner epidermal and parenchyma cells), seed (seed coat, endosperm, and embryo), sepal, leaf, and stem. The use of chiA and chiB promoters in the regulation of anther- and pollen-specific gene expression has been studied. By analyzing transgenic plants containing chimeric genes consisting of chiA and B promoter fragments and the GUS reporter gene, we were able to identify a 0.44-kilobase chiA PA2 promoter fragment that drives pollen-specific gene expression and a 1.75-kilobase chiB PB promoter fragment that confers anther-specific (pollen and tapetum cells) expression to the GUS gene.     

Transgenic barley expressing a fungal xylanase gene in the endosperm of the developing grains

The feasibility of producing plant cell wall polysaccharide-hydrolysing feed enzymes in the endosperm of barley grain was investigated. The coding region of a modified xylanase gene (xynA) from the rumen fungus, Neocallimastix patriciarum, linked with an endosperm-specific promoter from cereal storage protein genes was introduced into barley by Agrobacterium-mediated transformation. Twenty-four independently transformed barley lines with the xylanase gene were produced and analysed. The fungal xylanase was produced in the developing endosperm under the control of either the rice glutelin B-1 (GluB-1) or barley B1 hordein (Hor2-4) promoter. The rice GluB-1 promoter provided an apparently higher expression level of recombinant proteins in barley grain than the barley Hor2-4 promoter in both transient and stable expression experiments. In particular, the mean value for the fungal xylanase activity driven by the GluB-1 promoter in the mature grains of transgenic barley was more than twice that with the Hor2-4 promoter. Expression of the xylanase transgene under these endosperm-specific promoters was not observed in the leaf, stem and root tissues. Accumulation of the fungal xylanase in the developing grains of transgenic barley followed the pattern of storage protein deposition. The xylanase was stably maintained in the grain during grain maturation and desiccation and post-harvest storage. These results indicate that the cereal grain expression system may provide an economic means for large scale production of feed enzymes in the future.     

参与水稻光合作用的PsbR3基因启动子的功能分析

本实验旨在研究水稻光合作用蛋白中各基因的表达模式. 采用RT-PCR和定量real-time PCR数据分析水稻不同组织的mRNA表达水平.结果显示,PsaK和PsbR3基因仅在茎、叶等绿色组织表达,而胚、胚乳部分均不表达.通过其启动子克隆、植物表达载体构建,以及农杆菌介导转化后,GUS组织染化分析和GUS荧光定量分析表明,两启动子均为组织特异性优势表达,PsbR3启动报告酶GUS在叶片中的表达活性为Actin启动子的3.29倍,而PsaK启动报告酶GUS在叶片中的表达活性低于Actin启动子的.这些初步结果提示,PsbR3启动子决定水稻绿色组织茎叶的优势表达,PsbR3基因可能参与水稻光合作用.     

Deposition of a recombinant peptide in ER-derived protein bodies by retention with cysteine-rich prolamins in transgenic rice seed

A 7Crp peptide composed of seven major human T cell epitopes derived from the Japanese cedar pollen allergens Cry j 1 and Cry j 2 is an ideal tolerogen for peptide immunotherapy against Japanese cedar pollinosis. To maximize the accumulation level of the 7Crp peptide in transgenic rice seed, we tested endosperm specific promoters and intracellular localizations suitable for stable accumulation. A 7Crp peptide carrying the KDEL ER retention signal directed by the 2.3-kb promoter of the glutelin GluB-1, which contains a signal peptide, accumulated at the highest level of about 60 μg/grain. Notably, the 7Crp peptide predominantly accumulated in ER-derived protein bodies irrespective of the presence of various sorting signals or expression as a fusion protein with glutelin. We attribute this abnormal pattern of accumulation to the formation of disulfide bonds between the 7Crp peptide and cysteine-rich (Cys-rich) prolamin storage proteins. Furthermore, the formation of these aggregates induced the chaperone proteins BiP and PDI as an ER stress response.     

Quantitative nature of the Prolamin-box, ACGT and AACA motifs in a rice glutelin gene promoter: minimal cis-element requirements for endosperm-specific gene expression

The -197 bp promoter of the rice seed storage protein gene, GluB-1, is capable of conferring endosperm-specific gene expression. This proximal 5' flanking region contains four motifs, GCN4, AACA, ACGT and Prolamin-box, which are conserved in many seed storage protein genes. We previously showed that multiple copies of GCN4 conferred endosperm expression pattern when fused to the -46 core promoter of CaMV 35S. In this paper we demonstrate, using a similar approach, that tandem repeated copies of any of the other three motifs are unable to direct expression in seeds as well as other tissues of transgenic rice plants. Mutational analysis of individual motifs in the -197 bp promoter resulted in remarkable reductions in promoter activity. These results indicate that the GCN4 motif acts as an essential element determining endosperm-specific expression and that the AACA, ACGT and Prolamin-box are involved in quantitative regulation of the GluB-1 gene. A set of gain-of-function experiments using transgenic rice showed that either the Prolamin-box or AACA, although often coupled with GCN4 in many genes, is insufficient to form a functional promoter unit with GCN4, whereas a combination of GCN4, AACA and ACGT motifs was found sufficient to confer a detectable level of endosperm expression. Taken together, our results provide direct insight into the importance of combinatorial interplay between cis-elements in regulating the expression of seed storage protein genes.