Genomic Insulators in Transgenic Animals

A transgenic animal is a genetically modified species in which researchers have modified an existing gene or genes by genetic engineering techniques. Genetic modification involves the mutation, insertion, or deletion of genes. Mouse is the most widely used mammalian species for creating transgenic lines. There are two types of transgenic animals: (i) gene deleted (“knock-out”) and (ii) gene overexpressed (“knock-in”). The loss or gain of gene activity often causes changes in a mouse's phenotype, which includes appearance, behavior and other observable characteristics. Knockout mice are key animal models for studying the role of genes which have been sequenced but whose functions have not been determined. They include constitutive knockouts (gene deleted since birth) and conditional knockout (gene turned off later after birth). The first knockout mouse was created in 1989 by Mario Capecchi, Martin Evans, and Oliver Smithies, for which they were awarded the 2007 Nobel Prize in Physiology or Medicine. Transgenic mouse models have revolutionized the biomedical research and provided a power tool for understanding health and disease. Transgenic animals have been created for bulk production of biotechnology and pharmaceutical products. In 2009, the FDA approved the first human biological drug ATryn, an anticoagulant extracted from the transgenic goat's milk. The recently discovered CRISPER gene editing technology is providing new frontiers in correcting abnormal genes and hopefully provide cures for genetic diseases in the future.

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In vivo multi-parametric manganese-enhanced MRI for detecting amyloid plaques in rodent models of Alzheimer’s disease

Scientific Reports ◽

10.1038/s41598-021-91899-5 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Eugene Kim ◽

Davide Di Censo ◽

Mattia Baraldo ◽

Camilla Simmons ◽

Ilaria Rosa ◽

...

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Amyloid Plaques ◽

Transgenic Animals ◽

Surrounding Tissue ◽

Rodent Models ◽

Enhanced Mri ◽

5Xfad Mice ◽

Manganese Enhanced Mri

AbstractAmyloid plaques are a hallmark of Alzheimer’s disease (AD) that develop in its earliest stages. Thus, non-invasive detection of these plaques would be invaluable for diagnosis and the development and monitoring of treatments, but this remains a challenge due to their small size. Here, we investigated the utility of manganese-enhanced MRI (MEMRI) for visualizing plaques in transgenic rodent models of AD across two species: 5xFAD mice and TgF344-AD rats. Animals were given subcutaneous injections of MnCl2 and imaged in vivo using a 9.4 T Bruker scanner. MnCl2 improved signal-to-noise ratio but was not necessary to detect plaques in high-resolution images. Plaques were visible in all transgenic animals and no wild-types, and quantitative susceptibility mapping showed that they were more paramagnetic than the surrounding tissue. This, combined with beta-amyloid and iron staining, indicate that plaque MR visibility in both animal models was driven by plaque size and iron load. Longitudinal relaxation rate mapping revealed increased manganese uptake in brain regions of high plaque burden in transgenic animals compared to their wild-type littermates. This was limited to the rhinencephalon in the TgF344-AD rats, while it was most significantly increased in the cortex of the 5xFAD mice. Alizarin Red staining suggests that manganese bound to plaques in 5xFAD mice but not in TgF344-AD rats. Multi-parametric MEMRI is a simple, viable method for detecting amyloid plaques in rodent models of AD. Manganese-induced signal enhancement can enable higher-resolution imaging, which is key to visualizing these small amyloid deposits. We also present the first in vivo evidence of manganese as a potential targeted contrast agent for imaging plaques in the 5xFAD model of AD.

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The lacI Gene as a Target for Mutation in Transgenic Rodents and Escherichia coli

Genetics ◽

10.1093/genetics/148.4.1441 ◽

1998 ◽

Vol 148 (4) ◽

pp. 1441-1451

Author(s):

Johan G de Boer ◽

Barry W Glickman

Keyword(s):

Escherichia Coli ◽

Dna Repair ◽

Dna Binding ◽

Transgenic Animals ◽

Single Copy ◽

Binding Domain ◽

Dna Binding Domain ◽

Large Database ◽

Deletion Mutations ◽

Laci Gene

Abstract The lacI gene has been used extensively for the recovery and analysis of mutations in bacteria with various DNA repair backgrounds and after exposure to a wide variety of mutagens. This has resulted in a large database of information on mutational mechanisms and specificity of many mutagens, as well as the effect of DNA repair background on mutagenicity. Most importantly, knowledge about the mutational sensitivity of the lacI gene is now available, yielding information about mutable nucleotides. This popularity and available knowledge resulted in the use of the lacI gene in transgenic rodents for the study of mutagenesis in mammals, where it resides in ~40 repeated copies. As the number of sequenced mutations recovered from these animals increases, we are able to analyze the sites at which mutations have been recovered in great detail and to compare the recovered sites between bacteria and transgenic animals. The nucleotides that code for the DNA-binding domain are nearly saturated with base substitutions. Even after determining the sequences of ~10,000 mutations recovered from the animals, however, new sites and new changes are still being recovered. In addition, we compare the nature of deletion mutations between bacteria and animals. Based on the nature of deletions in the animals, we conclude that each deletion occurs in a single copy of the gene.

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Book Review: Welfare Aspects of Transgenic Animals

Alternatives to Laboratory Animals ◽

10.1177/026119299702500415 ◽

1997 ◽

Vol 25 (4) ◽

pp. 471-471

Author(s):

Rob Crilly

Keyword(s):

Transgenic Animals

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Serial analysis of gene expression (SAGE) during porcine embryo development

Reproduction Fertility and Development ◽

10.1071/rd03081 ◽

2004 ◽

Vol 16 (2) ◽

pp. 87 ◽

Cited By ~ 12

Author(s):

Le Ann Blomberg ◽

Kurt A. Zuelke

Keyword(s):

Gene Expression ◽

Functional Genomics ◽

Embryo Development ◽

Molecular Mechanisms ◽

Physiological Role ◽

Transgenic Animals ◽

Specific Gene ◽

Research Strategies

Functional genomics provides a powerful means for delving into the molecular mechanisms involved in pre-implantation development of porcine embryos. High rates of embryonic mortality (30%), following either natural mating or artificial insemination, emphasise the need to improve the efficiency of reproduction in the pig. The poor success rate of live offspring from in vitro-manipulated pig embryos also hampers efforts to generate transgenic animals for biotechnology applications. Previous analysis of differential gene expression has demonstrated stage-specific gene expression for in vivo-derived embryos and altered gene expression for in vitro-derived embryos. However, the methods used to date examine relatively few genes simultaneously and, thus, provide an incomplete glimpse of the physiological role of these genes during embryogenesis. The present review will focus on two aspects of applying functional genomics research strategies for analysing the expression of genes during elongation of pig embryos between gestational day (D) 11 and D12. First, we compare and contrast current methodologies that are being used for gene discovery and expression analysis during pig embryo development. Second, we establish a paradigm for applying serial analysis of gene expression as a functional genomics tool to obtain preliminary information essential for discovering the physiological mechanisms by which distinct embryonic phenotypes are derived.

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Constitutive expression of cyclo-oxygenase 2 transgene in hepatocytes protects against liver injury

Biochemical Journal ◽

10.1042/bj20081224 ◽

2008 ◽

Vol 416 (3) ◽

pp. 337-346 ◽

Cited By ~ 18

Author(s):

Rafael Mayoral ◽

Belen Mollá ◽

Juana Maria Flores ◽

Lisardo Boscá ◽

Marta Casado ◽

...

Keyword(s):

Liver Injury ◽

Transgenic Mice ◽

Genetic Model ◽

Acute Liver Injury ◽

Constitutive Expression ◽

Transgenic Animals ◽

Hepatocyte Proliferation ◽

Nuclear Antigen ◽

Cox 2 ◽

Inflammatory Profile

The effect of COX (cyclo-oxygenase)-2-dependent PGs (prostaglandins) in acute liver injury has been investigated in transgenic mice that express human COX-2 in hepatocytes. We have used three well-established models of liver injury: in LPS (lipopolysaccharide) injury in D-GalN (D-galactosamine)-preconditioned mice; in the hepatitis induced by ConA (concanavalin A); and in the proliferation of hepatocytes in regenerating liver after PH (partial hepatectomy). The results from the present study demonstrate that PG synthesis in hepatocytes decreases the susceptibility to LPS/D-GalN or ConA-induced liver injury as deduced by significantly lower levels of the pro-inflammatory profile and plasmatic aminotransferases in transgenic mice, an effect suppressed by COX-2-selective inhibitors. These Tg (transgenic) animals express higher levels of anti-apoptotic proteins and exhibit activation of proteins implicated in cell survival, such as Akt and AMP kinase after injury. The resistance to LPS/D-GalN-induced liver apoptosis involves an impairment of procaspase 3 and 8 activation. Protection against ConA-induced injury implies a significant reduction in necrosis. Moreover, hepatocyte commitment to start replication is anticipated in Tg mice after PH, due to the expression of PCNA (proliferating cell nuclear antigen), cyclin D1 and E. These results show, in a genetic model, that tissue-specific COX-2-dependent PGs exert an efficient protection against acute liver injury by an antiapoptotic/antinecrotic effect and by accelerated early hepatocyte proliferation.

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Direct repeats bind the EcR/USP receptor and mediate ecdysteroid responses in Drosophila melanogaster.

Molecular and Cellular Biology ◽

10.1128/mcb.16.6.2977 ◽

1996 ◽

Vol 16 (6) ◽

pp. 2977-2986 ◽

Cited By ~ 70

Author(s):

C Antoniewski ◽

B Mugat ◽

F Delbac ◽

J A Lepesant

Keyword(s):

Fat Body ◽

Cell Transformation ◽

Direct Repeat ◽

Transgenic Animals ◽

Transcriptional Level ◽

Regulatory Sequences ◽

Direct Repeats ◽

Fbp1 Gene

The steroid hormone 20-hydroxyecdysone plays a key role in the induction and modulation of morphogenetic events throughout Drosophila development. Previous studies have shown that a heterodimeric nuclear receptor composed of the EcR and USP proteins mediates the action of the hormone at the transcriptional through binding to palindromic ecdysteroid mediates the action of the hormone at the transcriptional level through binding to palindromic ecdysteroid response elements (EcREs) such as those present in the promoter of the hsp27 gene or the fat body-specific enhancer of the Fbp1 gene. We show that in addition to palindromic EcREs, the EcR/USP heterodimer can bind in vitro with various affinities to direct repetitions of the motif AGGTCA separated by 1 to 5 nucleotides (DR1 to DR5), which are known to be target sites for vertebrate nuclear receptors. At variance with the receptors, EcR/USP was also found to bind to a DR0 direct repeat with no intervening nucleotide. In cell transformation assays, direct repeats DR0 to DR5 alone can render the minimum viral tk or Drosophila Fbp1 promoter responsive to 20-hydroxyecdysone, as does the palindromic hsp27 EcRE. In a transgenic assay, however, neither the palindromic hsp27 element nor direct repeat DR3 alone can make the Fbp1 minimal promoter responsive to premetamorphic ecdysteroid peaks. In contrast, DR0 and DR3 elements, when substituted for the natural palindromic EcRE in the context of the Fbp1 enhancer, can drive a strong fat body-specific ecdysteroid response in transgenic animals. These results demonstrate that directly repeated EcR/USP binding sites are as effective as palindromic EcREs in vivo. They also provide evidence that additional flanking regulatory sequences are crucially required to potentiate the hormonal response mediated by both types of elements and specify its spatial and temporal pattern.

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Mode of action considerations in the use of transgenic animals for mutagenicity and carcinogenicity evaluations

Toxicology Letters ◽

10.1016/s0378-4274(98)00342-7 ◽

1998 ◽

Vol 102-103 ◽

pp. 479-484 ◽

Cited By ~ 8

Author(s):

B Bhaskar Gollapudi ◽

William T Stott ◽

Barry L Yano ◽

James S Bus

Keyword(s):

Mode Of Action ◽

Transgenic Animals

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