Tissue-specific and developmental regulation of rod opsin chimeric genes in transgenic mice.

Chimeric gene fusions between 4.4 kb of rod opsin 5' flanking sequence fused to a diphtheria toxin gene and 4.4 kb or 500 bp of rod opsin 5' flanking sequence fused to the E. coli IacZ gene were used to generate transgenic mice for analysis of cell type-specific expression and temporal and spatial distribution of reporter gene product during retinal development. Opsin-diphtheria toxin transgene expression evoked photoreceptor-specific cell death. The 4.4 kb opsin-IacZ transgene followed temporal and spatial gradients of expression that approximate opsin expression. The 500 bp opsin fragment targeted expression to photoreceptors, but expression was weaker and nonuniform, suggesting that elements located upstream may be required for enhanced and uniform spatial expression.     

Characterization of position-induced spatial and temporal regulation of transgene promoter activity in plants.

Quantitative differences in transgene expression between independent transformants are generally ascribed to different integration sites of the transgene (position effect). The contribution of spatial and temporal changes in transgene promoter activity to these position-induced differences in transgene expression in planta are characterized, using the firefly luciferase (luc) reporter system. The activity of three different promoters (Cauliflower Mosaic Virus (CaMV) 35S, modified CaMV 35S and the promoter of an Arabidopsis thaliana Lipid Transfer Protein gene) was shown to vary not only among independent transformants, but also between leaves on the same plant and within a leaf. The differences in local LUC activity between leaves and within a leaf correlated with differences in local luc mRNA steady-state levels. Imaging of LUC activity in the same leaves over a 50 d period, shows that individual transformants can show different types of temporal regulation. Both the spatial and the temporal type of luc transgene expression pattern are inherited by the next generation. It is concluded that previously reported position-induced quantitative differences in transgene expression are probably an accumulated effect of differences in spatial and temporal regulation of transgene promoter activity.     

EGR-1启动子在肿瘤基因治疗中的应用

EGR-1的启动子为早期生长反应因子-1基因上游约-550-0bp的一顺式作用元件。其活性受控于一些诱导剂,如电离辐射,联合EGR-1的启动子与治疗基因（如TNF-α、自杀基因）,用辐射能在肿瘤局部从时,空调控治疗基因的表达,使其产物局限于肿瘤局部,并发挥放疗的杀肿瘤效应,而放疗与转基因产物又有协同作用。放射治疗与基因治疗的配伍为肿瘤的治疗提供了新思路。     

The effect of MAR elements on variation in spatial and temporal regulation of transgene expression

The level of transgene expression often differs among independent transformants. This is generally ascribed to different integration sites of the transgene into the plant genome in each independently obtained transformant (position effect). It has been shown that in tobacco transformants expressing, for example, a cauliflower mosaic virus (CaMV) 35S promoter-driven -glucuronidase (GUS) reporter gene, these position-induced quantitative differences among individual transformants were reduced by the introduction of matrix-associated regions (MAR elements) on the T-DNA. We have previously shown by imaging of in planta firefly luciferase (luc) reporter gene activity that quantitative differences in transgene activity can be the result of either a variation in (1) level, (2) spatial distribution and/or (3) temporal regulation of transgene expression between independent transformants. It is not known which of these three different aspects of transgene expression is affected when the transgene is flanked by MAR elements. Here we have used the firefly luciferase reporter system to analyse the influence of MAR elements on the activity of a CaMV 35S-luc transgene in a population of independently transformed tobacco plants. Imaging of in planta LUC activity in these tobacco plant populations showed that the presence of MAR elements does not result in less variation in the average level of transgene expression between individual transformants. This result is different from that obtained previously with a 35S-GUS reporter gene flanked by MAR elements and reflects the differences in the stability of the LUC and GUS reporter proteins. Also the variation in spatial patterns of in vivo LUC activity is not reduced between independent transformants when the transgene is flanked by MAR elements. However, MAR elements do seem to affect the variation in temporal regulation of transgene expression between individual transformants. The potential effects of MAR elements on the variability of transgene expression and the relation to the stability of the (trans)gene product are discussed.     

Temporal, spatial and tissue-specific expression of a myogenin-lacZ transgene targeted to the Hprt locus in mice.

A lacZ transgene, expressed by the myogenin promoter, was introduced into the mouse hypoxanthine phosphoribosyltransferase (Hprt) locus by gene targeting in embryonic stem cells. Embryos between E10.5-E18.5 days were analyzed for expression of the transgene after staining for beta-galactosidase activity. Transgene expression was restricted to the skeletal muscle lineages reflecting a similar temporal and spatial pattern previously demonstrated for the endogenous myogenin gene. Additionally, a second transgene, MC1tk, showed expression in 87% of the clones when targeted to Hprt. This strategy, called targeted transgenesis, provides control for analyzing promoter sequences and for comparing various transgenes expressed by the same promoter.     

A safe and effective plant gene switch system for tissue-specific induction of gene expression in Arabidopsis thaliana and Brassica juncea

The ability to regulate spatial and temporal expression of genes is a useful tool in biotechnology as well as studies of functional genomics. Such regulation can provide information concerning the function of a gene in a developmental context while avoiding potential harmful effects due to constitutive overexpression of the gene. A GUS gene construct that uses the ecdysone receptor-based chemically inducible system and several different tissue-specific promoters was introduced into the model plant Arabidopsis thaliana and into the crop plant Brassica juncea. Here we describe the results of studies showing that this system provides both temporal and spatial control of transgene expression, and confirm that this system is useful for tissue-specific and temporal induction of gene expression in A. thaliana and B. juncea.     

A 5-kilobase pair promoter fragment of the murine epididymal retinoic acid-binding protein gene drives the tissue-specific, cell-specific, and androgen-regulated expression of a foreign gene in the epididymis of transgenic mice

The murine epididymis synthesizes and secretes a retinoic acid-binding protein (mE-RABP) that belongs to the lipocalin superfamily. The gene encoding mE-RABP is specifically expressed in the mouse mid/distal caput epididymidis under androgen control. In transgenic mice, a 5-kilobase pair (kb) promoter fragment, but not a 0.6-kb fragment, of the mE-RABP gene driving the chloramphenicol acetyltransferase (CAT) reporter gene restricted high level of transgene expression to the caput epididymidis. No transgene expression was detected in any other male or female tissues. Immunolocalization of the CAT protein and in situ hybridization of the corresponding CAT mRNA indicated that transgene expression occurred in the principal cells of the mid/distal caput epididymidis, thereby mimicking the spatial endogenous mE-RABP gene expression. Transgene and mE-RABP gene expression was detected from 30 days and progressively increased until 60 days of age. Castration, efferent duct ligation, and hormone replacement studies demonstrated that transgene expression was specifically regulated by androgen but not by any other testicular factors. Altogether, our results demonstrate that the 5-kb promoter fragment of the mE-RABP gene contains all of the information required for the hormonal regulation and the spatial and temporal expression of the mE-RABP gene in the epididymis.     

A myelin proteolipid protein-LacZ fusion protein is developmentally regulated and targeted to the myelin membrane in transgenic mice

Transgenic mice were generated with a fusion gene carrying a portion of the murine myelin proteolipid protein (PLP) gene, including the first intron, fused to the E. coli LacZ gene. Three transgenic lines were derived and all lines expressed the transgene in central nervous system white matter as measured by a histochemical assay for the detection of beta-galactosidase activity. PLP-LacZ transgene expression was regulated in both a spatial and temporal manner, consistent with endogenous PLP expression. Moreover, the transgene was expressed specifically in oligodendrocytes from primary mixed glial cultures prepared from transgenic mouse brains and appeared to be developmentally regulated in vitro as well. Transgene expression occurred in embryos, presumably in pre- or nonmyelinating cells, rather extensively throughout the peripheral nervous system and within very discrete regions of the central nervous system. Surprisingly, beta- galactosidase activity was localized predominantly in the myelin in these transgenic animals, suggesting that the NH2-terminal 13 amino acids of PLP, which were present in the PLP-LacZ gene product, were sufficient to target the protein to the myelin membrane. Thus, the first half of the PLP gene contains sequences sufficient to direct both spatial and temporal gene regulation and to encode amino acids important in targeting the protein to the myelin membrane.     

动物基因工程三种诱导型表达系统及比较

诱导型基因表达系统已成为基因工程和病理学研究的重要工具。利用诱导型基因表达系统,可调控组织或细胞中重组基因在一定的时间里或一定的空间中表达,也能调控重组基因的表达水平。本文主要对近年来广泛应用的Cre/loxP、tet-off和tet-on三种诱导型基因表达系统的发展和应用进行综述。     

Improvement of Germ Line Transmission by Targeting β-galactosidase to Nuclei in Transgenic Mice

The Escherichia coli lacZ gene has frequently been used as a reporter in cell lineage analysis, in determining the elements regulating spatial and temporal gene expression, and in enhancer/gene trap detection of developmentally regulated genes. However, it is uncertain whether lacZ expression affects eukaryotic cell growth and development. By using a gene trap, we previously isolated the promoter, Ayu1, which is active in ES cells and in several tissues including the gonads. We used this promoter and the nuclear location signal of the SV40 large T gene to locate β-galactosidase either in the cytoplasm or the nucleus. Transgenic lines containing β-galactosidase in the cytoplasm of a wide variety of cell types did not transmit the transgene to their offspring. In contrast, transgenic mice, containing β-galactosidase in the nucleus, did transmit the transgene successfully. Interestingly, lacZ expression in the brain was more restricted when β-galactosidase activity was detected in the cytoplasm. These data suggested that cytoplasmic β-galactosidase affects certain developmental processes or gametogenesis resulting in transmission distortion of the transgene, and that this effect can be reduced by targeting β-galactosidase to the nucleus. We also found that Ayu1-driven lacZ expression in the duodenum of adult transgenic mice was sexually dimorphic, being positive in females and negative in males.     

Temporal and spatial control of transgene expression using laser induction of the hsp70 promoter

Background  

Precise temporal and spatial regulation of transgene expression is a critical tool to investigate gene function in developing organisms. The most commonly used technique to achieve tight control of transgene expression, however, requires the use of specific DNA enhancers that are difficult to characterize in non-model organisms. Here, we sought to eliminate the need for this type of sequence-based gene regulation and to open the field of functional genetics to a broader range of organisms.     

Heritable gene silencing in Drosophila using double-stranded RNA

RNA-mediated interference (RNAi) is a recently discovered method to determine gene function in a number of organisms, including plants, nematodes, Drosophila, zebrafish, and mice. Injection of double-stranded RNA (dsRNA) corresponding to a single gene into organisms silences expression of the specific gene. Rapid degradation of mRNA in affected cells blocks gene expression. Despite the promise of RNAi as a tool for functional genomics, injection of dsRNA interferes with gene expression transiently and is not stably inherited. Consequently, use of RNAi to study gene function in the late stages of development has been limited. It is particularly problematic for development of disease models that reply on post-natal individuals. To circumvent this problem in Drosophila, we have developed a method to express dsRNA as an extended hairpin-loop RNA. This method has recently been successful in generating RNAi in the nematode Caenorhabditis elegans. The hairpin RNA is expressed from a transgene exhibiting dyad symmetry in a controlled temporal and spatial pattern. We report that the stably inherited transgene confers specific interference of gene expression in embryos, and tissues that give rise to adult structures such as the wings, legs, eyes, and brain. Thus, RNAi can be adapted to study late-acting gene function in Drosophila. The success of this approach in Drosophila and C. elegans suggests that a similar approach may prove useful to study gene function in higher organisms for which transgenic technology is available.     

Ars insulator protects transgenes from long-term silencing in sea urchin larva

Reporter genes have been used as a powerful tool to analyze cis-regulatory elements responsible for temporal and spatial expression in the early development of sea urchin. However, here we show that the transgenes introduced into the sea urchin embryos undergo suppression in larval stage. The transgene silencing could be one of major obstacle in the analysis of regulatory regions in the late stages of development. We previously demonstrated that a DNA fragment (ArsI) located in the upstream region of sea urchin (Hemicentrotus pulcherrimus) arylsulfatase gene has the property of an insulator. We show that tandem ArsI prevents silencing of a transgene in sea urchin larvae when the ArsI is fused to the 5′ end of the reporter gene. Furthermore, we demonstrate that DNA of the reporter gene introduced into the sea urchin eggs is methylated during development and that the ArsI protects the transgene from the DNA methylation.