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RFX1作为一种依赖于环境的调节因子,其转录激活结构域和转录抑制结构域可相互中和其活性。

The transcriptional activation and repression domains of RFX1, a context-dependent regulator, can mutually neutralize their activities.

作者信息

Katan Y, Agami R, Shaul Y

机构信息

Department of Molecular Genetics, The Weizmann Institute of Science, Rehovot 76100, Israel.

出版信息

Nucleic Acids Res. 1997 Sep 15;25(18):3621-8. doi: 10.1093/nar/25.18.3621.

DOI:10.1093/nar/25.18.3621
PMID:9278482
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC146931/
Abstract

EP is a DNA element found in regulatory regions of viral and cellular genes. While being a key functional element in viral enhancers, EP has no intrinsic enhancer activity but can stimulate or silence transcription in a context-dependent manner. The EP element is bound by RFX1, which belongs to a novel, evolutionarily conserved protein family. In an attempt to decipher the mechanism by which EP regulates transcription, the intrinsic transcriptional activity of RFX1 was investigated. A functional dissection of RFX1, by analysis of deletion mutants and chimeric proteins, identified several regions with independent transcriptional activity. An activation domain containing a glutamine-rich region is found in the N-terminal half of RFX1, while a region with repressor activity overlaps the C-terminal dimerization domain. In RFX1 these activities were mutually neutralized, producing a nearly inactive transcription factor. This neutralization effect was reproduced by fusing RFX1 sequences to a heterologous DNA-binding domain. We propose that relief of self-neutralization may allow RFX1 to act as a dual-function regulator via its activation and repression domains, accounting for the context-dependent activity of EP.

摘要

EP是一种存在于病毒和细胞基因调控区域的DNA元件。虽然EP是病毒增强子中的关键功能元件,但它本身没有增强子活性,而是可以以上下文依赖的方式刺激或沉默转录。EP元件与RFX1结合,RFX1属于一个新的、进化上保守的蛋白质家族。为了阐明EP调控转录的机制,对RFX1的内在转录活性进行了研究。通过对缺失突变体和嵌合蛋白的分析对RFX1进行功能剖析,确定了几个具有独立转录活性的区域。在RFX1的N端一半区域发现了一个含有富含谷氨酰胺区域的激活结构域,而一个具有抑制活性的区域与C端二聚化结构域重叠。在RFX1中,这些活性相互中和,产生了一个几乎无活性的转录因子。通过将RFX1序列与异源DNA结合结构域融合,再现了这种中和效应。我们提出,自我中和的解除可能使RFX1通过其激活和抑制结构域作为双功能调节因子发挥作用,这就解释了EP的上下文依赖活性。

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