Zhuoying Yang scite author profile

GATA-3 is a zinc finger transcription factor which is expressed in a highly restricted and strongly conserved tissue distribution pattern in vertebrate organisms, specifically, in a subset of hematopoietic cells, in cells within the central and peripheral nervous systems, in the kidney, and in placental trophoblasts. Tissue-specific cellular genes regulated by GATA-3 have been identified in T lymphocytes and the placenta, while GATA-3-regulated genes in the nervous system and kidney have not yet been defined. We prepared monoclonal antibodies with which we could dissect the biochemical and functional properties of human GATA-3. The results of these experiments show some anticipated phenotypes, for example, the definition of discrete domains required for specific DNA-binding site recognition (amino acids 303 to 348) and trans activation (amino acids 30 to 74). The signaling sequence for nuclear localization of human GATA-3 is a property conferred by sequences within and surrounding the amino finger (amino acids 249 to 311) of the protein, thereby assigning a function to this domain and thus explaining the curious observation that this zinc finger is dispensable for DNA binding by the GATA family of transcription factors.

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The beta-globin stage selector element factor is erythroid-specific promoter/enhancer binding protein NF-E4.

Gallarda

Foley²,

Yang³

et al. 1989

Genes & Development

121

104

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The analysis of transcriptional regulatory proteins is often hampered because such factors are present in cells in only sparing abundance. Although direct biochemical purification has been successfully applied to the analysis of many of these factors, such methods are labor intensive and expensive. We have developed an alternative strategy to identify and characterize such trans-acting factors and have used it to analyze the proteins that interact with the chicken adult p-globin gene enhancer and promoter. The methodology involves (1) a sensitive 'reverse' radioimmunoassay used for the identification of antibodies to sequence-specific DNA-binding proteins, and (2) a monoclonal antibody-based DNase I footprint selection technique, which unambiguously identifies proteins responsible for particular footprints. Because this methodology relies on the isolation of antibodies to sequence-specific DNA-binding proteins, it should be of general utility in studying any trflns-acting regulatory factor for which a specific DNA-binding sequence can be identified. In the present analysis, we report the identification of a 65-kD protein that is present only in mature definitive (adult) chicken erythroid cells. We show that this protein (termed NF-E4) binds to closely related sequences present in both the p-globin promoter and enhancer. Biochemical analysis of extracts prepared from both nonerythroid and a variety of erythroid cell types suggests that NF-E4 is the trans-acting factor that confers definitive erythrocyte stage-specific transcriptional activation to the adult p-globin gene.

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Apolipoprotein(a) Gene Enhancer Resides within a LINE Element

Yang

Boffelli

Boonmark

et al. 1998

Journal of Biological Chemistry

111

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Apolipoprotein(a), (apo(a)), is the distinguishing protein portion of the lipoprotein(a) particle, elevated plasma levels of which are a major risk factor for cardiovascular disease. A search for enhancer elements that control the transcription of the apo(a) gene led to the identification of an upstream element that contains target binding sites for members of the Ets and Sp1 nuclear protein families. The enhancer element functions in either orientation to confer a greater than 10-fold increase in the activity of the apo(a) minimal promoter in cultured hepatocyte cells. Unexpectedly, the enhancer element is located within a LINE retrotransposon element, suggesting that LINE elements may function as mobile regulatory elements to control the expression of nearby genes.

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Modification of apolipoprotein(a) lysine binding site reduces atherosclerosis in transgenic mice.

Boonmark¹,

Lou²,

Yang³

et al. 1997

J. Clin. Invest.

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Human T cell transcription factor GATA-3 stimulates HIV-1 expression

Yang¹,

Engel

1993

Nucl Acids Res

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A family of transcriptional activating proteins, the GATA factors, has been shown to bind to a consensus motif through a highly conserved C4 zinc finger DNA binding domain. One member of this multigene family, GATA-3, is most abundantly expressed in T lymphocytes, a cellular target for human immunodeficiency virus type 1 (HIV-1) infection and replication. In vitro DNase I footprinting analysis revealed six hGATA-3 binding sites in the U3 region (the transcriptional regulatory domain) of the HIV-1 LTR. Cotransfection of an hGATA-3 expression plasmid with a reporter plasmid whose transcription is directed by the HIV-1 LTR resulted in 6- to 10-fold stimulation of LTR-mediated transcription, whereas site specific mutation of these GATA sites resulted in virtual abrogation of the activation by hGATA-3. Further, deletion of the hGATA-3 transcriptional activation domain abolished GATA-dependent HIV-1 trans-activation, showing that the stimulation of viral transcription observed is a direct effect of cotransfected hGATA-3. Introduction of the HIV-1 plasmids in which the GATA sites have been mutated into human T lymphocytes also caused a significant reduction in LTR-mediated transcription at both the basal level and in (PHA- plus PMA-) stimulated T cells. These observations suggest that in addition to its normal role in T lymphocyte gene regulation, hGATA-3 may also play a significant role in HIV-1 transcriptional activation.

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Zhuoying Yang

Human GATA-3 trans-activation, DNA-binding, and nuclear localization activities are organized into distinct structural domains.

The beta-globin stage selector element factor is erythroid-specific promoter/enhancer binding protein NF-E4.

Apolipoprotein(a) Gene Enhancer Resides within a LINE Element

Modification of apolipoprotein(a) lysine binding site reduces atherosclerosis in transgenic mice.

Human T cell transcription factor GATA-3 stimulates HIV-1 expression

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