Expression of the Arabidopsis AtAux2-11 auxin-responsive gene in transgenic plants

Five constructions containing deletions of the promoter from an auxin-inducible gene of Arabidopsis thaliana, AtAux2-11, were fused to the coding region of the reporter gene LacZ, which encodes -galactosidase, and a polyadenylation 3-untranslated nopaline synthase sequence from Agrobacterium. These chimeric genes were introduced into Arabidopsis by Agrobacterium tumefaciens-mediated transformation, and expression of the gene was examined by spectrophotometric and histochemical analyses. A 600 bp fragment from the AtAux2-11 promoter conferred histochemical patterns of staining similar to the longest 5 promoter tested, a 3.0 kb fragment. Localization of AtAux2-11/LacZ activity in the transgenic plants revealed spatial and temporal expression patterns that correlated with tissues and cells undergoing physiological processes modulated by auxin. LacZ activity was expressed in the elongating region of roots, etiolated hypocotyls, and anther filaments. Expression was detected in the vascular cylinder of the root and the vascular tissue, epidermis, and cortex of the hypocotyl, and filament. The AtAux2-11/LacZ gene was preferentially expressed in cells on the elongating side of hypocotyls undergoing gravitropic curvature. Expression of the chimeric gene in the hypocotyls of light-grown seedlings was less than that in etiolated seedling hypcotyls. The AtAux2-11/LacZ gene was active in the root cap, and expression in the root stele increased at sites of lateral root initiation. Staining was evident in cell types that develop lignified cell walls, e.g. trichomes, anther endothecial cells, and especially developing xylem. The chimeric gene was not expressed in primary meristems. While the magnitude of expression increased after application of exogenous auxin (2,4-D), the histochemical localization of AtAux2-11/LacZ remained unchanged.Transgenic plants with a 600 bp promoter construct (–0.6 kb AtAux2-11/LacZ) had higher levels of basal and auxin-inducible expression than plants with a 3.0 kb promoter construct. Transgenic plants with a –500 bp promoter had levels of expression similar to the –3.0 kb construct. The –0.6 kb AtAux2-11/LacZ gene responded maximally to a concentration of 5 × 10^–6 to 5 × 10^–5 M 2,4-D and was responsive to as little as 5 × 10^–8 M. The evidence presented here suggests that this gene may play a role in several auxin-mediated developmental and physiological processes.co-first authors     

Expression of carbonic anhydrase II (CA II) promoter-reporter fusion genes in multiple tissues of transgenic mice does not replicate normal patterns of expression indicating complexity of CA II regulationin vivo

Although the proximal, 5′ 115 bp of the human carbonic anhydrase II (CA II) gene was sufficient for expression of a reporter gene in some transfected cell lines, we found previously that 1100 bp of this promoter (or 500 bp of the mouse CA II promoter) was not sufficient for expression in transgenic mice. We have now studied the expression of linked reporter genes in mice transgenic for either (1) 11 kb of the human 5′ promoter or (2) 8 kb of the human 5′ promoter with mouse sequences from the first exon, part of the first intron (since a CpG island spans this region), and the 3′ sequences of the gene. Expression was found in both cases, but the tissue specificity was not appropriate for CA II. Although there was a difference in the sensitivity of the assays used, the first construct led to expression in many tissues, while the second construct was expressed only in spleen. These findings indicate considerable complexity of DNA control regions for in vivo CA II expression.     

The Egr-1 promoter contains information for constitutive and inducible expression in transgenic mice.

Egr-1 is an immediate early gene that couples short-term changes in the extracellular milieu to long-term changes in gene expression. Under in vitro conditions, the Egr-1 gene is expressed in many cell types and is induced by a wide variety of extracellular signals. The mechanisms by which the Egr-1 gene is regulated in vivo remain poorly understood. In this study, we have generated transgenic mice with a construct containing 1200 bp of the mouse Egr-1 promoter coupled to nuclear localized LacZ. In multiple independent lines of mice, reporter gene expression was detected in subsets of endothelial cells, vascular smooth-muscle cells, cardiomyocytes, neurons, and hepatocytes. This pattern closely resembled that of the endogenous gene. After partial hepatectomy, reporter gene activity was upregulated between two- and fivefold in regenerating livers. Taken together, these findings suggest that the Egr-1 promoter contains information for appropriate spatial and temporal expression in vivo.     

A regulatory region from the mouse Hox-2.2 promoter directs gene expression into developing limbs

To characterize cis-acting regulatory elements of the murine homeobox gene, Hox-2.2, transgenic mouse lines were generated that contained the LacZ reporter gene under the control of different fragments from the presumptive Hox-2.2 promoter. A promoter region of 3600 base pairs (bp) was identified, which reproducibly directed reporter gene expression into specific regions of developing mouse embryos. At 8.5 days postcoitum (p.c.) reporter gene activity was detected in posterior regions of the lateral mesoderm and, in subsequent developmental stages, expression of the LacZ gene was restricted to specific regions of the developing limb buds and the mesenchyme of the ventrolateral body region. This pattern of Hox-2.2-LacZ expression was found in all transgenic embryos that have been generated with the 3.6 kb promoter fragment (two founder embryos and embryos from five transgenic lines). In addition, embryos from two transgenic mouse lines expressed the reporter gene at low levels in the developing central nervous system (CNS). Our results are consistent with the idea that in addition to their presumptive role in CNS and vertebrae development, Hox-2.2 gene products are involved in controlling pattern formation in developing limbs.     

A 4.3 kb Smad7 promoter is able to specify gene expression during mouse development

Members of transforming growth factor-beta (TGF-beta) superfamily play important roles in diverse biological functions including early development. These extracellular factors exert their effects by interacting with membrane receptors followed by signal transduction by a group of Smad proteins. Smad7 is an inhibitory Smad protein that specifically antagonizes TGF-beta and activin signaling. To characterize the developmental role of Smad7, a transgenic mouse model was generated using a 4.3 kb mouse Smad7 promoter driving beta-galactosidase expression. In these mice, the Smad7 promoter defined a restrictive expression pattern of beta-galactosidase in a tightly regulated temporal and spatial manner. The beta-galactosidase gene was transiently expressed in the cardiovascular structures including heart cushion tissues and the endothelium of major arteries at E11.5 to E12.5. Through E12.5 to E17.5, beta-galactosidase expression was prominently detected in the epithelium of developing cochlea and nasolacrimal duct. In addition, it was temporally expressed in trigeminal ganglion, the skeletal muscles surrounding major joints, primordium of the jaws, as well as genital tubercle. These studies indicated that the 4.3 kb Smad7 promoter contains sufficient regulatory elements to define controlled gene expression during mouse development.     

增强子驱动的Cre转基因小鼠的构建及Cre基因的表达鉴定

目的:探索将增强子应用于构建Cre转基因小鼠品系,为以条件基因敲除为基础的基因功能研究提供更多的工具。方法:通过PCR方法从小鼠的细菌人工染色体扩增UH增强子片段,构建含有Hsp68基础启动子、增强子UH、Cre重组酶基因和SV40 polyA的转基因载体pLW400,将3.3 kb的转基因片段通过显微注射导入小鼠受精卵;为了检测Cre在转基因小鼠中的表达,将转基因一代小鼠与纯合子ROSA26报告小鼠(R/R)交配,收集第14 d胚胎期(E14)的舌组织进行LacZ染色检测鉴定。结果:经鉴定,31只子代小鼠中有6只携带外源基因,整合率为19.4%;与R/+对照相比,E14期的双基因型Cre,R/+舌组织为阳性结果(蓝色)。这表明Cre基因在转基因小鼠舌组织内得到表达,并在体内介导ROSA26基因座loxP位点间的重组,且有效删除了2个loxP之间的片段,从而启动了LacZ基因的表达。结论:构建了UH增强子-Hsp68Cre的转基因小鼠,在舌肌中特异表达Cre基因,提示增强子可以被选择应用于Cre转基因小鼠的构建;为舌肌的发育和再生研究奠定了基础。     

A 4.3 kb Smad7 promoter is able to specify gene expression during mouse development

Members of transforming growth factor-β (TGF-β) superfamily play important roles in diverse biological functions including early development. These extracellular factors exert their effects by interacting with membrane receptors followed by signal transduction by a group of Smad proteins. Smad7 is an inhibitory Smad protein that specifically antagonizes TGF-β and activin signaling. To characterize the developmental role of Smad7, a transgenic mouse model was generated using a 4.3 kb mouse Smad7 promoter driving β-galactosidase expression. In these mice, the Smad7 promoter defined a restrictive expression pattern of β-galactosidase in a tightly regulated temporal and spatial manner. The β-galactosidase gene was transiently expressed in the cardiovascular structures including heart cushion tissues and the endothelium of major arteries at E11.5 to E12.5. Through E12.5 to E17.5, β-galactosidase expression was prominently detected in the epithelium of developing cochlea and nasolacrimal duct. In addition, it was temporally expressed in trigeminal ganglion, the skeletal muscles surrounding major joints, primordium of the jaws, as well as genital tubercle. These studies indicated that the 4.3 kb Smad7 promoter contains sufficient regulatory elements to define controlled gene expression during mouse development.