Hidesato Ogawa scite author profile

The transcriptional co-repressor CtBP (C-terminal binding protein) is implicated in tumorigenesis because it is targeted by the adenovirus E1A protein during oncogenic transformation. Genetic studies have also identified a crucial function for CtBP in animal development. CtBP is recruited to DNA by transcription factors that contain a PXDLS motif, but the detailed molecular events after the recruitment of CtBP to DNA and the mechanism of CtBP function in tumorigenesis are largely unknown. Here we report the identification of a CtBP complex that contains the essential components for both gene targeting and coordinated histone modifications, allowing for the effective repression of genes targeted by CtBP. Inhibiting the expression of CtBP and its associated histone-modifying activities by RNA-mediated interference resulted in alterations of histone modifications at the promoter of the tumour invasion suppressor gene E-cadherin and increased promoter activity in a reporter assay. These findings identify a molecular mechanism by which CtBP mediates transcriptional repression and provide insight into CtBP participation in oncogenesis.

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A Complex with Chromatin Modifiers That Occupies E2F- and Myc-Responsive Genes in G ₀ Cells

Ogawa

Ishiguro

Gaubatz

et al. 2002

Science

706

633

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E2F-6 contributes to gene silencing in a manner independent of retinoblastoma protein family members. To better elucidate the molecular mechanism of repression by E2F-6, we have purified the factor from cultured cells. E2F-6 is found in a multimeric protein complex that contains Mga and Max, and thus the complex can bind not only to the E2F-binding site but also to Myc- and Brachyury-binding sites. Moreover, the complex contains chromatin modifiers such as a novel histone methyltransferase that modifies lysine 9 of histone H3, HP1gamma, and Polycomb group (PcG) proteins. The E2F-6 complex preferentially occupies target promoters in G0 cells rather than in G1 cells. These data suggest that these chromatin modifiers contribute to silencing of E2F- and Myc-responsive genes in quiescent cells.

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Efficient targeting of gene expression in chick embryos by microelectroporation

et al. 1999

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During vertebrate embryonic development, a key to unraveling specific functions of gene products is the capability to manipulate expression of the gene of interest at the desired time and place. For this, we developed a ‘microelectroporation’ technique by which DNA can be locally introduced into a targeted site of avian embryos, restricting spatial expression of the protein products during development. This technique involved injection of DNA solution in ovo around the target tissue and pinpoint application of an electric field by tungsten electrodes, allowing efficient and reproducible targeted gene transfer, for example, into an optic vesicle, somites, cranial mesoderm and limb mesenchyme. Because of the locality of gene introduction and its expression, survival rates of the embryos were high: approximately 90% of the embryos injected in optic vesicles were alive for at least 1 day after microelectroporation. The instantaneous gene transfer into embryonic cells allowed rapid expression of protein products such as green fluorescence protein within 2.5 h with fluorescence maintained for 3 days of incubation. This improved technique provides a convenient and efficient way to express transgenes in a spatially and temporally restricted manner in chicken embryos.

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Hidesato Ogawa

Coordinated histone modifications mediated by a CtBP co-repressor complex

A Complex with Chromatin Modifiers That Occupies E2F- and Myc-Responsive Genes in G ₀ Cells

Efficient targeting of gene expression in chick embryos by microelectroporation

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Hidesato Ogawa

Coordinated histone modifications mediated by a CtBP co-repressor complex

A Complex with Chromatin Modifiers That Occupies E2F- and Myc-Responsive Genes in G 0 Cells

Efficient targeting of gene expression in chick embryos by microelectroporation

Contact Info

Product

Resources

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A Complex with Chromatin Modifiers That Occupies E2F- and Myc-Responsive Genes in G ₀ Cells