Generation of conditional null alleles for APP and APLP2

Proteolytical cleavage of the β‐amyloid precursor protein (APP) generates β‐amyloid, which is deposited in the brains of patients suffering from Alzheimer's disease (AD). Despite the well‐established key role of APP for AD pathogenesis, the physiological function of APP and its close homologues APLP1 and APLP2 remains poorly understood. Previously, we generated APP^–/– mice that proved viable, whereas APP^–/–APLP2^–/– mice and triple knockouts died shortly after birth, likely due to deficits of neuromuscular synaptic transmission. Here, we generated conditional knockout alleles for both APP and APLP2 in which the promoter and exon1 were flanked by loxP sites. No differences in expression were detectable between wt and floxed alleles, whereas null alleles were obtained upon crossing with Cre‐transgenic deleter mice. These mice will now allow for tissue and time‐point controlled knockout of both genes. genesis 48:200–206, 2010. © 2010 Wiley‐Liss, Inc.     

Cre重组酶表达载体的构建及其在转基因小鼠胰腺中的表达

组织特异性表达Cre重组酶的转基因小鼠是进行组织特异性条件敲除研究的关键。采用PCR扩增大鼠胰岛素基因705bp启动子指导发胰岛细胞中特异表达;同时采用改构的Cre重组酶基因,在其5'端添加有真核核糖体结合序列和核定位序列使Cre重组酶能穿越核膜在细胞核能发挥功能;同时,为了保证原核基因Cre能在真核系统顺利表达,在其3'端添加含内含子的人生长激素基因。构建的表达载体在去除原核序列后用显微注射方法转基因小鼠,在出生的27只仔鼠中,PCR检测共获得7只Cre整合阳性的转基因小鼠,整合率26％。这种Cre转基因小鼠与基因组小携带LoxP位点的条件基因打靶小鼠交配,在胰腺组织中可以检测到Cre介导的重组,表明Cre在转基因小鼠胰腺中有表达。     

Generation and characterization of a Notch1 signaling-specific reporter mouse line

Signaling through the Notch1 receptor is essential for the control of numerous developmental processes during embryonic life as well as in adult tissue homeostasis and disease. Since the outcome of Notch1 signaling is highly context‐dependent, and its precise physiological and pathological role in many organs is unclear, it is of great interest to localize and identify the cells that receive active Notch1 signals in vivo. Here, we report the generation and characterization of a BAC‐transgenic mouse line, N1‐Gal4VP16, that when crossed to a Gal4‐responsive reporter mouse line allowed the identification of cells undergoing active Notch1 signaling in vivo. Analysis of embryonic and adult N1‐Gal4VP16 mice demonstrated that the activation pattern of the transgene coincides with previously observed activation patterns of the endogenous Notch1 receptor. Thus, this novel reporter mouse line provides a unique tool to specifically investigate the spatial and temporal aspects of Notch1 signaling in vivo. genesis 50:700–710, 2012. © 2012 Wiley Periodicals, Inc.     

A 900 bp genomic region from the mouse dystrophin promoter directs lacZ reporter expression only to the right heart of transgenic mice

In order to study the regulatory mechanism of developmental and tissue-specific expression of the muscle type dystrophin gene in mice, transgenic mice were generated carrying the 900 bp genomic fragment derived from the muscle type dystrophin promoter region fused to the bacterial lacZ gene. Six independent transgenic mouse lines showed specific reporter gene expression in the right heart, but not in skeletal or smooth muscle. The reporter gene expression was first detected in the presumptive right ventricle of the embryos at 8.5 days post coitum, and the expression continued only in the right ventricle throughout the development and at the adult stage. The results indicate that the 900 bp genomic fragment contains the regulatory element required for expression of dystrophin only in the right heart, suggesting that distinct elements are responsible for the expression in the left and right compartments of the heart, and/or in skeletal and smooth muscle cells. Based on these findings, the relationship between defects in muscle type promoter and the diseases caused by abnormal dystrophin expression is discussed.     

Generation of Pecam1 endothelial specific dual reporter mouse model

Endothelial cells are specialized epithelium lining the interior surface of vessels and play fundamental roles in angiogenesis, vascular permeability, and immune response. To identify endothelial cells in vivo, we constructed a Pecam1^{nlacZ‐H2B‐GFP/+} knock‐in mouse model in which the endothelial cells are labeled by nuclear LacZ (nlacZ) expression. When Pecam1^{nlacZ‐H2B‐GFP/+} mice are bred with germline Cre deleter mice, Pecam1^H2B‐GFP/+ line is created with native nuclear GFP (H2B‐GFP) expression in the endothelium of various organs. This dual reporter mouse provides us with a powerful genetic tool for definitive identification of endothelial cells and monitoring this important cell population throughout development, homeostasis, and disease conditions in mammals.     

Generation of multipurpose alleles for the functional analysis of the mouse genome.

A novel generation of retroviral gene-trap vectors has been developed with the ability to induce conditional mutations in most genes expressed in mouse embryonic stem (ES) cells. The vectors rely on directional site-specific recombination systems, which can repair and re-induce the gene-trap mutations when activated in succession. After the gene-trap insertions are passaged into mice, this system enables the induction of temporally and spatially restricted mutations in somatic cells. In addition to their conditional features, the vectors create multipurpose alleles amenable to a wide range of post-insertional modifications. These vectors have been used to assemble the largest library of ES cell lines with conditional mutations in single genes, presently totalling 1724 unique genes. Due to their efficiency, the vectors are part of the core technologies to be used by EUCOMM for establishing a complete collection of conditional null mutations in mice.     

Autophagy-monitoring and autophagy-deficient mice

Discovery of yeast autophagy-related (ATG) genes and subsequent identification of their homologs in other organisms have enabled researchers to investigate physiological functions of macroautophagy/autophagy using genetic techniques. Specific identification of autophagy-related structures is important to evaluate autophagic activity, and specific ablation of autophagy-related genes is a critical means to determine the requirements of autophagy. Here, we review currently available mouse models, particularly focusing on autophagy (and mitophagy) indicator models and systemic autophagy-related gene-knockout mouse models.     

Firefly luciferase as a reporter of regulated gene expression in higher plants

The firefly luciferase, assayedin vivo with a low-light video camera, acts as a non-invasive, real-time reporter of the temporal and spatial regulation of gene expression in single plants. Furthermore, the sensitivity of the luciferase assay in extracts of transformed plant tissue makes it a particularly useful marker in transient or stable transformation experiments.     

A mouse model to dissect progesterone signaling in the female reproductive tract and mammary gland

Considering the regulatory complexities of progesterone receptor (PR) action throughout the female reproductive axis and mammary gland, we generated a mouse model that enables conditional ablation of PR function in a spatiotemporal specific manner. Exon 2 of the murine PR gene was floxed to generate a conditional PR allele (PR^flox) in mice. Crossing the PR^flox/flox mouse with the ZP3‐cre transgenic demonstrated that the PR^flox allele recombines to a PR null allele (PR^d). Mice homozygous for the recombined null PR allele (PR^d/d) exhibit uterine, ovarian, and mammary gland defects that phenocopy those of our previously described PR knockout (PRKO) model. Therefore, this conditional mouse model for PR ablation represents an invaluable resource with which to further define in a developmental and/or reproductive stage‐specific manner the individual and integrative roles of distinct PR populations resident in multiple progesterone‐responsive target sites. genesis 48:106–113, 2010. © 2009 Wiley‐Liss, Inc.     

Exercise-induced beige adipogenesis of iWAT in Cidea reporter mice

Obesity is caused by an imbalance between energy intake and energy expenditure. Exercise is attracting attention as one of the ways to treat obesity. Exercise induces ‘beige adipogenesis’ in white adipose tissue, increasing total energy expenditure via energy dissipation in the form of heat. Also, beige adipogenesis can be induced by treatment with a beta-adrenergic receptor agonist. We developed a Cidea-dual reporter mouse (Cidea-P2A-Luc2-T2A-tdTomato, Luciferase/tdTomato) model to trace and measure beige adipogenesis in vivo. As a result, both exercise and injection of beta-adrenergic receptor agonist induced beige adipogenesis and was detected through fluorescence and luminescence. We confirmed that exercise and beta-adrenergic receptor agonist induce beige adipogenesis in Cidea-dual reporter mouse, which will be widely used for detecting beige adipogenesis in vivo.     

Renilla luciferase as a vital reporter for chloroplast gene expression in Chlamydomonas

The use of luciferases as reporters of gene expression in living cells has been extended to the chloroplast genome. We show that the luciferase from the soft coral Renilla reniformis (Rluc) can be successfully expressed in the chloroplast of Chlamydomonas reinhardtii. Expression of the rluc cDNA was driven by the promoter and 5′ untranslated regions of the atpA gene. Western analysis with an anti-Rluc antibody detected a single polypeptide of 38 kDa in the luminescent cells. This is 3 kDa larger than native Rluc, and suggests that translation of the chimeric mRNA begins at the atpA start codon, 29 codons upstream from the rluc start site. We also show that the luminescence of the transformants was sufficient to enable imaging of colonies using a cooled CCD camera. Received: 12 April 1999 / Accepted: 24 June 1999     

Dynamic expression of a LEF‐EGFP Wnt reporter in mouse development and cancer

We have characterized a transgenic mouse line in which enhanced green fluorescent protein (EGFP) is expressed under the control of multimerized LEF‐1 responsive elements. In embryos, EGFP was detected in known sites of Wnt activation, including the primitive streak, mesoderm, neural tube, somites, heart, limb buds, mammary placodes, and whisker follicles. In vitro cultured transgenic embryonic fibroblasts upregulated EGFP expression in response to activation of Wnt signaling by GSK3β inhibition. Mammary tumor cell lines derived from female LEF‐EGFP transgenic mice treated with the carcinogen 7, 12‐dimethylbenz[a]anthracene (DMBA) also express EGFP. Thus, this transgenic line is useful for ex vivo and in vitro studies of Wnt signaling in development and cancer. genesis 48:183–194, 2010. © 2010 Wiley‐Liss, Inc.     

Development of a luciferase reporter gene, luxCt, for Chlamydomonas reinhardtii chloroplast

Luciferase reporter genes have been successfully used in a variety of organisms to examine gene expression in living cells, but are yet to be successfully developed for use in chloroplast. Green fluorescent protein (gfp) has been used as a reporter of chloroplast gene expression, but because of high auto-fluorescence, very high levels of GFP accumulation are required for visualization in vivo. We have developed a luciferase reporter for chloroplast by synthesizing the two-subunit bacterial luciferase (lux)AB, as a single fusion protein in Chlamydomonas reinhardtii chloroplast codon bias. We expressed a chloroplast luciferase gene, luxCt, in C. reinhardtii chloroplasts under the control of the ATPase alpha subunit (atpA) or psbA promoter and 5' untranslated regions (UTRs) and the rubisco large subunit (rbcL) 3' UTR. We show that luxCt is a sensitive reporter of chloroplast gene expression, and that luciferase activity can be measured in vivo using a charge coupled device (CCD) camera or in vitro using a luminometer. We further demonstrate that luxCt protein accumulation, as measured by Western blot analysis, is proportional to luminescence, as determined both in vivo and in vitro, and that luxCt is capable of reporting changes in chloroplast gene expression during a dark to light shift. These data demonstrate the utility of the luxCt gene as a versatile and sensitive reporter of chloroplast gene expression in living cells.     

红球菌启动子识别及b-半乳糖苷酶报告基因表达

红球菌属在生物降解、生物修复、生物转化和生物表面活性剂等领域得到了日益广泛的应用。本研究以红球菌-大肠杆菌穿梭质粒pNV18.1为载体,以腈水合酶为模式酶,研究了大肠杆菌tac、lacZ启动子和红球菌酰胺酶启动子(ami-1/ami-2)在红球菌中的启动效率。结果表明,启动子Ptac、Pami-1(7bpSD-ATG间隔)、Pami-2(13bpSD-ATG间隔)和PlacZ在紫红红球菌ATCC33278中启动表达腈水合酶的比酶活分别是野生菌株的7.5、6.3、5.3和1.8倍,表明这些启动子都可以被红球菌的RNA聚合酶所成功识别。采用PlacZ启动子在红球菌宿主中启动β-半乳糖苷酶报告基因(lacZ),结果表明,lacZ能够在红球菌中高效表达,是优选的红球菌报告基因。     

基因打靶技术:开启遗传学新纪元

基因打靶技术作为最有效的定向修饰小鼠基因的技术手段在揭示基因的生理功能、研究人类疾病的遗传机制以及寻找新的药物靶标的过程中发挥着重要的作用。近年来, 随着条件基因打靶技术的发展使基因失活可以限制在特定时段特定组织或细胞内。文章将主要介绍基因打靶技术的发展简史、近期进展以及在其他模式动物中的应用。