P Hogben scite author profile

P Hogben

3Publications

29Citation Statements Received

101Citation Statements Given

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139

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University of Oxford

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Transcriptional promiscuity of the human alpha-globin gene.

Whitelaw¹,

Hogben²,

Hanscombe³

et al. 1989

Mol. Cell. Biol.

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The human aL-globin gene displays the unusual property of transcriptional promiscuity: that is, it functions in the absence of an enhancer when transfected into nonerythroid cell lines. It is also unusual in that its promoter region lies in a hypomethylated HpaII tiny fragment (HTF) island containing multiple copies of the consensus sequence for the SPl-binding site. We have investigated whether there is a relationship between these two observations. First, we investigated the mouse ac-globin gene since it does not lie in an HTF island. We have demonstrated that it was not transcriptionally promiscuous. Second, we studied the transcriptional activity of the human a-globin gene in the absence of the GC-rich region containing putative SPl-binding sites and found a small (two-to threefold) but consistent positive effect of this region on transcriptional activity in both nonerythroid and erythroid cell lines. However, this effect did not account for the promiscuous nature of the human a-globin gene. We found that in a nonreplicating system, the human a-globin gene, like that of the mouse, required a simian virus 40 enhancer in order to be transcriptionally active in nonerythroid and erythroid cell lines. Since we only observed enhancer independence of the human a-globin gene in a high-copy-number replicating system, we suggest that competition for trans-acting factors could explain these results. Finally, our experiments with the erythroid cell line Putko suggest that there are no tissue-specific enhancers within 1 kilobase 5' of the human a-globin cap site or within the gene itself.

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Regulated Expression of Globin Chains and the Erythroid Transcription Factor GATA-1 during Erythropoiesis in the Developing Mouse

Whitelaw

Tsai

Hogben

et al. 1990

Molecular and Cellular Biology

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Erythropoiesis in vertebrates is characterized by sequential changes in erythropoietic site, erythroblast morphology, and hemoglobin synthesis. We have examined the expression of globin chains and the major erythroid transcription factor GATA-1 (previously known as GF-1/NF-E1/Eryf 1) from days 7.5 to 17.5 of mouse development. mRNAs for embryonic (epsilon y2, beta H1, and zeta) and adult (alpha and beta) globin chains were quantitated by RNase protection assays. Switching of globins within the alpha-globin cluster (alpha and zeta) was not strictly coordinated with that within the beta-globin cluster (epsilon y2, beta H1, and beta). Regulation of globin switches during development was primarily transcriptional. Of particular note, we found two developmental switches (beta H1 to epsilon y2 and epsilon y2 to beta) in the mouse, more analogous than previously thought to shifts found in human development. The erythroid transcription factor GATA-1, believed to be a principal regulator of genes expressed in erythroid cells, first appeared in the embryo in yolk sac at the time of blood island formation and remained at a low level during embryonic erythropoiesis (8 to 11 days) relative to that found later in fetal liver (12 to 15 days). The rise in GATA-1 mRNA in fetal liver paralleled and preceded the rapid accumulation of adult beta-globin RNA. RNase protection assays and a GATA-1-specific peptide antiserum were used to establish that a single GATA-1 polypeptide is expressed throughout mouse development. Overall, these findings suggest that the levels of this erythroid transcription factor during development may contribute to the differential gene activation characteristic of definitive versus primitive erythropoiesis.

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Transcriptional Promiscuity of the Human α-Globin Gene

Whitelaw

Hogben

Hanscombe

et al. 1989

Molecular and Cellular Biology

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The human alpha-globin gene displays the unusual property of transcriptional promiscuity: that is, it functions in the absence of an enhancer when transfected into nonerythroid cell lines. It is also unusual in that its promoter region lies in a hypomethylated HpaII tiny fragment (HTF) island containing multiple copies of the consensus sequence for the SP1-binding site. We have investigated whether there is a relationship between these two observations. First, we investigated the mouse alpha-globin gene since it does not lie in an HTF island. We have demonstrated that it was not transcriptionally promiscuous. Second, we studied the transcriptional activity of the human alpha-globin gene in the absence of the GC-rich region containing putative SP1-binding sites and found a small (two- to threefold) but consistent positive effect of this region on transcriptional activity in both nonerythroid and erythroid cell lines. However, this effect did not account for the promiscuous nature of the human alpha-globin gene. We found that in a nonreplicating system, the human alpha-globin gene, like that of the mouse, required a simian virus 40 enhancer in order to be transcriptionally active in nonerythroid and erythroid cell lines. Since we only observed enhancer independence of the human alpha-globin gene in a high-copy-number replicating system, we suggest that competition for trans-acting factors could explain these results. Finally, our experiments with the erythroid cell line Putko suggest that there are no tissue-specific enhancers within 1 kilobase 5' of the human alpha-globin cap site or within the gene itself.

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P Hogben

Transcriptional promiscuity of the human alpha-globin gene.

Regulated Expression of Globin Chains and the Erythroid Transcription Factor GATA-1 during Erythropoiesis in the Developing Mouse

Transcriptional Promiscuity of the Human α-Globin Gene

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