Hyi Man Park scite author profile

Hyi Man Park

3Publications

23Citation Statements Received

127Citation Statements Given

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124

Affiliations

University of Minnesota, Nagoya University

Publications

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COUP-TF Plays a Dual Role in the Regulation of the Ovalbumin Gene

et al. 2000

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The ovalbumin (Ov) gene contains a number of regulatory elements that control its transcriptional activity and restrict expression to avian oviduct. One major regulatory region, the steroid-dependent regulatory element (SDRE), is required for induction by estrogen and corticosterone. Another region, the negative regulatory element (NRE), downstream of the SDRE, acts primarily to repress gene expression. In addition, experiments within indicate that the binding site for the COUP transcription factor (COUP-TF) is also required for Ov gene transcription. To examine the interactions involving the SDRE, the NRE, and the COUP binding sites on Ov gene transcription, mutations in these regions were made and transfected into primary oviduct cell cultures. These experiments show that without the NRE, the SDRE is sufficient for induction by estrogen and corticosterone, irrespective of the COUP site. However, with the NRE intact, the COUP site is required for steroid induction, although without the NRE, the COUP site attenuates transcriptional activity. More interestingly, overexpression of COUP-TF1 with the Ov wild-type reporter construct alleviates the requirement for steroid hormones. These results demonstrate that the COUP site is essential and has a dual role in Ov gene transcription and that steroid hormones might directly or indirectly regulate the activity of COUP-TF1.

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Interferon regulatory factors (IRFs) repress transcription of the chicken ovalbumin gene

Dougherty¹,

Park²,

Sanders³

2009

Gene

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Although the ovalbumin (Ov) gene has served as a model to study tissue-specific, steroid hormoneinduced gene expression in vertebrates for decades, the mechanisms responsible for regulating this gene remain elusive. Ov is repressed in non-oviduct tissue and in estrogen-deprived oviduct by a strong repressor site located from -130 to -100 and designated CAR for COUP-TF adjacent repressor. The goal of this study was to identify the CAR binding protein(s). A transcription factor database search revealed that a putative interferon-stimulated response element (ISRE), which binds interferon regulatory factors (IRFs), is located in this region. Gel mobility shift assays demonstrated that the protein(s) binding to the CAR site is recognized by an IRF antibody and that mutations in the ISRE abolish that binding. In hopes of identifying the IRF(s) responsible for the tissue-specific regulation of Ov, mRNA levels for IRFs-4, -8, and -10 were measured in seven tissues from chicks treated with or without estrogen. PCR experiments showed that both IRF-8 and -10 are expressed in all chick tissues tested whereas IRF-4 has a much more limited expression pattern. Transfection experiments with OvCAT (chloramphenicol acetyltransferase) reporter constructs demonstrated that both IRF-4 and IRF-10 are capable of repressing the Ov gene even in the presence of steroid hormones and that nucleotides in the ISRE are required for repression. These experiments indicate that the repressor activity associated with the CAR site is mediated by IRF family members and suggest that IRF members also repress Ov in non-oviduct tissues.

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An oviduct-specific and enhancer-like element resides at about −3000 in the chicken ovalbumin gene

et al. 2006

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Hyi Man Park

COUP-TF Plays a Dual Role in the Regulation of the Ovalbumin Gene

Interferon regulatory factors (IRFs) repress transcription of the chicken ovalbumin gene

An oviduct-specific and enhancer-like element resides at about −3000 in the chicken ovalbumin gene

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