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  • Title: Active chromatin hub of the mouse alpha-globin locus forms in a transcription factory of clustered housekeeping genes.
    Author: Zhou GL, Xin L, Song W, Di LJ, Liu G, Wu XS, Liu DP, Liang CC.
    Journal: Mol Cell Biol; 2006 Jul; 26(13):5096-105. PubMed ID: 16782894.
    Abstract:
    RNA polymerases can be shared by a particular group of genes in a transcription "factory" in nuclei, where transcription may be coordinated in concert with the distribution of coexpressed genes in higher-eukaryote genomes. Moreover, gene expression can be modulated by regulatory elements working over a long distance. Here, we compared the conformation of a 130-kb chromatin region containing the mouse alpha-globin cluster and their flanking housekeeping genes in 14.5-day-postcoitum fetal liver and brain cells. The analysis of chromatin conformation showed that the active alpha1 and alpha2 globin genes and upstream regulatory elements are in close spatial proximity, indicating that looping may function in the transcriptional regulation of the mouse alpha-globin cluster. In fetal liver cells, the active alpha1 and alpha2 genes, but not the inactive zeta gene, colocalize with neighboring housekeeping genes C16orf33, C16orf8, MPG, and C16orf35. This is in sharp contrast with the mouse alpha-globin genes in nonexpressing cells, which are separated from the congregated housekeeping genes. A comparison of RNA polymerase II (Pol II) occupancies showed that active alpha1 and alpha2 gene promoters have a much higher RNA Pol II enrichment in liver than in brain. The RNA Pol II occupancy at the zeta gene promoter, which is specifically repressed during development, is much lower than that at the alpha1 and alpha2 promoters. Thus, the mouse alpha-globin gene cluster may be regulated through moving in or out active globin gene promoters and regulatory elements of a preexisting transcription factory in the nucleus, which is maintained by the flanking clustered housekeeping genes, to activate or inactivate alpha-globin gene expression.
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