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STAT1 结合及调控转录活性的近端基因组定位

Proximal genomic localization of STAT1 binding and regulated transcriptional activity.

作者信息

Wormald Samuel, Hilton Douglas J, Smyth Gordon K, Speed Terence P

机构信息

Division of Bioinformatics, The Walter and Eliza Hall Institute of Medical Research, Melbourne, Australia.

出版信息

BMC Genomics. 2006 Oct 11;7:254. doi: 10.1186/1471-2164-7-254.

DOI:10.1186/1471-2164-7-254
PMID:17032459
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1618399/
Abstract

BACKGROUND

Signal transducer and activator of transcription (STAT) proteins are key regulators of gene expression in response to the interferon (IFN) family of anti-viral and anti-microbial cytokines. We have examined the genomic relationship between STAT1 binding and regulated transcription using multiple tiling microarray and chromatin immunoprecipitation microarray (ChIP-chip) experiments from public repositories.

RESULTS

In response to IFN-gamma, STAT1 bound proximally to regions of the genome that exhibit regulated transcriptional activity. This finding was consistent between different tiling microarray platforms, and between different measures of transcriptional activity, including differential binding of RNA polymerase II, and differential mRNA transcription. Re-analysis of tiling microarray data from a recent study of IFN-gamma-induced STAT1 ChIP-chip and mRNA expression revealed that STAT1 binding is tightly associated with localized mRNA transcription in response to IFN-gamma. Close relationships were also apparent between STAT1 binding, STAT2 binding, and mRNA transcription in response to IFN-alpha. Furthermore, we found that sites of STAT1 binding within the Encyclopedia of DNA Elements (ENCODE) region are precisely correlated with sites of either enhanced or diminished binding by the RNA polymerase II complex.

CONCLUSION

Together, our results indicate that STAT1 binds proximally to regions of the genome that exhibit regulated transcriptional activity. This finding establishes a generalized basis for the positioning of STAT1 binding sites within the genome, and supports a role for STAT1 in the direct recruitment of the RNA polymerase II complex to the promoters of IFN-gamma-responsive genes.

摘要

背景

信号转导子与转录激活子(STAT)蛋白是响应抗病毒和抗微生物细胞因子的干扰素(IFN)家族时基因表达的关键调节因子。我们利用来自公共数据库的多个平铺式微阵列和染色质免疫沉淀微阵列(ChIP-chip)实验,研究了STAT1结合与调控转录之间的基因组关系。

结果

响应干扰素-γ时,STAT1在基因组中与表现出调控转录活性的区域近端结合。这一发现不同的平铺式微阵列平台之间,以及包括RNA聚合酶II的差异结合和mRNA差异转录在内的不同转录活性测量方法之间都是一致的。对最近一项关于干扰素-γ诱导的STAT1 ChIP-chip和mRNA表达的研究中的平铺式微阵列数据重新分析显示,STAT1结合与响应干扰素-γ时的局部mRNA转录紧密相关。在响应干扰素-α时,STAT1结合、STAT2结合和mRNA转录之间也存在明显的密切关系。此外,我们发现DNA元件百科全书(ENCODE)区域内的STAT1结合位点与RNA聚合酶II复合物结合增强或减弱的位点精确相关。

结论

总之,我们的结果表明STAT1在基因组中与表现出调控转录活性的区域近端结合。这一发现为STAT1结合位点在基因组中的定位建立了一个普遍的基础,并支持STAT1在将RNA聚合酶II复合物直接招募到干扰素-γ反应基因启动子中的作用。

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