共查询到20条相似文献,搜索用时 31 毫秒
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In complex genomes, insulators set up chromatin domain boundaries and protect promoters from inappropriate activation by enhancers from neighboring genes. The Drosophila Abdominal-B locus uses insulator elements to organize its large regulatory region into several body segment-specific chromatin domains. This organization leads to a problem in enhancer-promoter communication, that is, how do distal enhancers activate the Abd-B promoter when there are several insulators in between? This issue is partially resolved by the Promoter Targeting Sequence, which can overcome the enhancer blocking effect of an insulator. In this study, we describe a new Promoter Targeting Sequence, PTS-6, from the Abd-B 3' regulatory region. PTS-6, comprised of approximately 200 bp, was found to bypass both homologous Abdominal-B insulators, such as Fab-7 and Fab-8, and a heterologous insulator, suHw. Most importantly, it also overcomes a combination of two insulators such as Fab-7/Fab-8. Thus, PTS-6 could, in principle, target remote enhancers that are separated from the Abd-B promoter by multiple insulators. In addition, PTS-6 selectively targets the distal enhancer to only one transgenic promoter, and it strongly facilitates Abd-B enhancers. These results suggest that promoter targeting is necessary for long-range enhancer-promoter communication in Abd-B, and PTS elements could be a common occurrence in large, complex genetic loci. 相似文献
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Nicolas Nègre Christopher D. Brown Parantu K. Shah Pouya Kheradpour Carolyn A. Morrison Jorja G. Henikoff Xin Feng Kami Ahmad Steven Russell Robert A. H. White Lincoln Stein Steven Henikoff Manolis Kellis Kevin P. White 《PLoS genetics》2010,6(1)
Insulators are DNA sequences that control the interactions among genomic regulatory elements and act as chromatin boundaries. A thorough understanding of their location and function is necessary to address the complexities of metazoan gene regulation. We studied by ChIP–chip the genome-wide binding sites of 6 insulator-associated proteins—dCTCF, CP190, BEAF-32, Su(Hw), Mod(mdg4), and GAF—to obtain the first comprehensive map of insulator elements in Drosophila embryos. We identify over 14,000 putative insulators, including all classically defined insulators. We find two major classes of insulators defined by dCTCF/CP190/BEAF-32 and Su(Hw), respectively. Distributional analyses of insulators revealed that particular sub-classes of insulator elements are excluded between cis-regulatory elements and their target promoters; divide differentially expressed, alternative, and divergent promoters; act as chromatin boundaries; are associated with chromosomal breakpoints among species; and are embedded within active chromatin domains. Together, these results provide a map demarcating the boundaries of gene regulatory units and a framework for understanding insulator function during the development and evolution of Drosophila. 相似文献
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Lunyak VV 《Current opinion in cell biology》2008,20(3):281-287
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染色质隔离子研究进展The Progress in the Study of Chromatin Insulator 总被引:2,自引:0,他引:2