Rabinovich Alina, Jin Victor X, Rabinovich Roman, Xu Xiaoqin, Farnham Peggy J
Department of Pharmacology and the Genome Center, University of California-Davis, Davis, California 95616, USA.
Genome Res. 2008 Nov;18(11):1763-77. doi: 10.1101/gr.080622.108. Epub 2008 Oct 3.
We have previously shown that most sites bound by E2F family members in vivo do not contain E2F consensus motifs. However, differences between in vivo target sites that contain or lack a consensus E2F motif have not been explored. To understand how E2F binding specificity is achieved in vivo, we have addressed how E2F family members are recruited to core promoter regions that lack a consensus motif and are excluded from other regions that contain a consensus motif. Using chromatin immunoprecipitation coupled with DNA microarray analysis (ChIP-chip) assays, we have shown that the predominant factors specifying whether E2F is recruited to an in vivo binding site are (1) the site must be in a core promoter and (2) the region must be utilized as a promoter in that cell type. We have tested three models for recruitment of E2F to core promoters lacking a consensus site, including (1) indirect recruitment, (2) looping to the core promoter mediated by an E2F bound to a distal motif, and (3) assisted binding of E2F to a site that weakly resembles an E2F motif. To test these models, we developed a new in vivo assay, termed eChIP, which allows analysis of transcription factor binding to isolated fragments. Our findings suggest that in vivo (1) a consensus motif is not sufficient to recruit E2Fs, (2) E2Fs can bind to isolated regions that lack a consensus motif, and (3) binding can require regions other than the best match to the E2F motif.
我们之前已经表明,E2F家族成员在体内结合的大多数位点并不包含E2F共有基序。然而,含有或缺乏共有E2F基序的体内靶位点之间的差异尚未得到探究。为了了解E2F在体内如何实现结合特异性,我们研究了E2F家族成员是如何被招募到缺乏共有基序的核心启动子区域,并被排除在其他含有共有基序的区域之外的。通过使用染色质免疫沉淀结合DNA微阵列分析(ChIP-chip)实验,我们已经表明,决定E2F是否被招募到体内结合位点的主要因素是:(1)该位点必须位于核心启动子中;(2)该区域必须在该细胞类型中被用作启动子。我们测试了三种将E2F招募到缺乏共有位点的核心启动子的模型,包括:(1)间接招募;(2)由结合到远端基序的E2F介导的环化至核心启动子;(3)E2F与弱类似于E2F基序的位点的辅助结合。为了测试这些模型,我们开发了一种新的体内实验,称为eChIP,它允许分析转录因子与分离片段的结合。我们的研究结果表明,在体内:(1)共有基序不足以招募E2F;(2)E2F可以结合到缺乏共有基序的分离区域;(3)结合可能需要除了与E2F基序最佳匹配之外的其他区域。