L M Whyatt scite author profile

Embryonic stem cells are pluripotent cells derived from the early mouse embryo that can be propagated stably in the undifferentiated state in vitro. They retain the ability to differentiate into all cell types found in an embryonic and adult mouse in vivo, and can be induced to differentiate into many cell types in vitro. Exploitation of ES cell technology for the creation of mice bearing predetermined genetic alterations has received widespread attention because of the sophistication that it brings to the study of gene function in mammals. Analysis of cell differentiation in vitro has also been of value, leading to the identification of novel bioactive factors and the elucidation of cell specification mechanisms. In this paper, we summarise the features of pluripotent cell lines and their applications, foreshadowing the impact that these systems may have on human biology. While the isolation of definitive human pluripotent cell lines has not yet been achieved, potential applications for these cells in the study of human biology, particularly cell specification, can be envisaged. Of particular interest is the possibility that human embryonic stem cells with properties similar to mouse embryonic stem cells might provide a generic system for gene therapy.

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The responsiveness of embryonic stem cells to alpha and beta interferons provides the basis of an inducible expression system for analysis of developmental control genes.

Whyatt¹,

Düwel²,

Smith³

et al. 1993

Mol. Cell. Biol.

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Embryonic stem (ES) cells, derived from the inner cell mass of the preimplantation mouse embryo, are used increasingly as an experimental tool for the investigation of early mammalian development. The differentiation of these cells in vitro can be used as an assay for factors that regulate early developmental decisions in the embryo, while the effects of altered gene expression during early embryogenesis can be analyzed in chimeric mice generated from modified ES cells. The experimental versatility of ES cells would be significantly increased by the development of systems which allow precise control of heterologous gene expression. In this paper, we report that ES cells are responsive to alpha and beta interferons (IFNs). This property has been exploited for the development of inducible ES cell expression vectors, using the promoter of the human IFN-inducible gene, 6-16. The properties of these vectors have been analyzed in both transiently and stably transfected ES cells. Expression was minimal or absent in unstimulated ES cells, could be stimulated up to 100-fold by treatment of the cells with IFN, and increased in linear fashion with increasing levels of IFN. High levels of induced expression were maintained for extended periods of time in the continuous presence of the inducing signal or following a 12-h pulse with IFN. Treatment of ES cells with IFN did not affect their growth or differentiation in vitro or compromise their developmental potential. This combination of features makes the 6-16-based expression vectors suitable for the functional analysis of developmental control control genes in ES cells.

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Introduction of precise alterations into the mouse genome with high efficiency by stable tag-exchange gene targeting: implications for gene targeting in ES cells

Whyatt

Rathjen

1997

Nucleic Acids Research

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The efficiency of tag-and-exchange gene targeting approaches for the introduction of precise genomic modifications is compromised by high levels of non-homologous recombinants which survive selection due to loss of tag gene expression, often by physical loss of the tag gene. We describe a modified approach, termed stable tag-exchange, which incorporates an additional positive selection (stability) cassette to circumvent this limitation. HPRT (tag) and neo (stability) cassettes, separated by 4.9 kb of homologous DNA, were introduced efficiently into the LIF locus of ES cells. The tag cassette was substituted for abeta-galactosidase gene in exchange step targeting. Direct comparison of the tag-and-exchange and stable tag-exchange approaches indicated respective targeting efficiencies of 21% and 88%. The increased stable tag-exchange targeting efficiency resulted from elimination of >75% of background lines which survived tag-and-exchange selection due to physical loss of the tag gene. These resulted from reversion of the tagged allele to wild-type which is therefore a major contributor to tag-and-exchange targeting background. Our results extend the application of gene targeting by demonstrating a rationale for single-step integration of multiple regions of extended non-homology, and providing an efficient system for the repeated introduction of precise alterations into the mammalian genome.

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The Responsiveness of Embryonic Stem Cells to Alpha and Beta Interferons Provides the Basis of an Inducible Expression System for Analysis of Developmental Control Genes

Whyatt

Düwel

Smith

et al. 1993

Molecular and Cellular Biology

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Interferon-Inducible ES Cell Expression Systems

Whyatt

Rathjen

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L M Whyatt

Properties and uses of embryonic stem cells: prospects for application to human biology and gene therapy

The responsiveness of embryonic stem cells to alpha and beta interferons provides the basis of an inducible expression system for analysis of developmental control genes.

Introduction of precise alterations into the mouse genome with high efficiency by stable tag-exchange gene targeting: implications for gene targeting in ES cells

The Responsiveness of Embryonic Stem Cells to Alpha and Beta Interferons Provides the Basis of an Inducible Expression System for Analysis of Developmental Control Genes

Interferon-Inducible ES Cell Expression Systems

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