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黏连蛋白和Nipped-B与黑腹果蝇基因组转录活性区域的关联。

Association of cohesin and Nipped-B with transcriptionally active regions of the Drosophila melanogaster genome.

作者信息

Misulovin Ziva, Schwartz Yuri B, Li Xiao-Yong, Kahn Tatyana G, Gause Maria, MacArthur Stewart, Fay Justin C, Eisen Michael B, Pirrotta Vincenzo, Biggin Mark D, Dorsett Dale

机构信息

Edward A. Doisy Department of Biochemistry and Molecular Biology, Saint Louis University School of Medicine, Saint Louis, MO 63104, USA.

出版信息

Chromosoma. 2008 Feb;117(1):89-102. doi: 10.1007/s00412-007-0129-1. Epub 2007 Oct 27.

DOI:10.1007/s00412-007-0129-1
PMID:17965872
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2258211/
Abstract

The cohesin complex is a chromosomal component required for sister chromatid cohesion that is conserved from yeast to man. The similarly conserved Nipped-B protein is needed for cohesin to bind to chromosomes. In higher organisms, Nipped-B and cohesin regulate gene expression and development by unknown mechanisms. Using chromatin immunoprecipitation, we find that Nipped-B and cohesin bind to the same sites throughout the entire non-repetitive Drosophila genome. They preferentially bind transcribed regions and overlap with RNA polymerase II. This contrasts sharply with yeast, where cohesin binds almost exclusively between genes. Differences in cohesin and Nipped-B binding between Drosophila cell lines often correlate with differences in gene expression. For example, cohesin and Nipped-B bind the Abd-B homeobox gene in cells in which it is transcribed, but not in cells in which it is silenced. They bind to the Abd-B transcription unit and downstream regulatory region and thus could regulate both transcriptional elongation and activation. We posit that transcription facilitates cohesin binding, perhaps by unfolding chromatin, and that Nipped-B then regulates gene expression by controlling cohesin dynamics. These mechanisms are likely involved in the etiology of Cornelia de Lange syndrome, in which mutation of one copy of the NIPBL gene encoding the human Nipped-B ortholog causes diverse structural and mental birth defects.

摘要

黏连蛋白复合体是一种从酵母到人类都保守的、姐妹染色单体黏连所必需的染色体成分。类似保守的Nipped - B蛋白是黏连蛋白与染色体结合所必需的。在高等生物中,Nipped - B和黏连蛋白通过未知机制调节基因表达和发育。利用染色质免疫沉淀技术,我们发现Nipped - B和黏连蛋白在整个非重复的果蝇基因组中结合于相同位点。它们优先结合转录区域并与RNA聚合酶II重叠。这与酵母形成鲜明对比,在酵母中黏连蛋白几乎只在基因之间结合。果蝇细胞系中黏连蛋白和Nipped - B结合的差异通常与基因表达的差异相关。例如,黏连蛋白和Nipped - B在转录Abd - B同源异型框基因的细胞中结合,但在该基因沉默的细胞中不结合。它们结合到Abd - B转录单元和下游调控区域,因此可能调节转录延伸和激活。我们推测转录可能通过使染色质解折叠促进黏连蛋白结合,然后Nipped - B通过控制黏连蛋白动力学来调节基因表达。这些机制可能与科妮莉亚·德·朗格综合征的病因有关,在该综合征中,编码人类Nipped - B直系同源物的NIPBL基因的一个拷贝发生突变会导致多种结构和智力出生缺陷。

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