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Improved genome-wide localization by ChIP-chip using double-round T7 RNA polymerase-based amplification.使用基于T7 RNA聚合酶的两轮扩增通过芯片杂交技术(ChIP-chip)改进全基因组定位。
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Quantitative proteomics reveals regulation of dynamic components within TATA-binding protein (TBP) transcription complexes.定量蛋白质组学揭示了TATA结合蛋白(TBP)转录复合物中动态成分的调控机制。
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NC2 mobilizes TBP on core promoter TATA boxes.NC2在核心启动子TATA框上动员TBP。
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Selective anchoring of TFIID to nucleosomes by trimethylation of histone H3 lysine 4.通过组蛋白H3赖氨酸4的三甲基化实现TFIID对核小体的选择性锚定。
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Specific defects in different transcription complexes compensate for the requirement of the negative cofactor 2 repressor in Saccharomyces cerevisiae.不同转录复合物中的特定缺陷弥补了酿酒酵母中负辅因子2阻遏物的需求。
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NC2和Mot1p在全基因组范围内协同调节TATA结合蛋白功能的作用。

Cooperative action of NC2 and Mot1p to regulate TATA-binding protein function across the genome.

作者信息

van Werven Folkert J, van Bakel Harm, van Teeffelen Hetty A A M, Altelaar A F Maarten, Koerkamp Marian Groot, Heck Albert J R, Holstege Frank C P, Timmers H Th Marc

机构信息

Department of Physiological Chemistry, University Medical Center Utrecht, 3584 CG Utrecht, The Netherlands.

出版信息

Genes Dev. 2008 Sep 1;22(17):2359-69. doi: 10.1101/gad.1682308. Epub 2008 Aug 14.

DOI:10.1101/gad.1682308
PMID:18703679
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2532931/
Abstract

Promoter recognition by TATA-binding protein (TBP) is an essential step in the initiation of RNA polymerase II (pol II) mediated transcription. Genetic and biochemical studies in yeast have shown that Mot1p and NC2 play important roles in inhibiting TBP activity. To understand how TBP activity is regulated in a genome-wide manner, we profiled the binding of TBP, NC2, Mot1p, TFIID, SAGA, and pol II across the yeast genome using chromatin immunoprecipitation (ChIP)-chip for cells in exponential growth and during reprogramming of transcription. We find that TBP, NC2, and Mot1p colocalize at transcriptionally active pol II core promoters. Relative binding of NC2alpha and Mot1p is higher at TATA promoters, whereas NC2beta has a preference for TATA-less promoters. In line with the ChIP-chip data, we isolated a stable TBP-NC2-Mot1p-DNA complex from chromatin extracts. ATP hydrolysis releases NC2 and DNA from the Mot1p-TBP complex. In vivo experiments indicate that promoter dissociation of TBP and NC2 is highly dynamic, which is dependent on Mot1p function. Based on these results, we propose that NC2 and Mot1p cooperate to dynamically restrict TBP activity on transcribed promoters.

摘要

TATA结合蛋白(TBP)对启动子的识别是RNA聚合酶II(pol II)介导转录起始过程中的关键步骤。酵母中的遗传学和生物化学研究表明,Mot1p和NC2在抑制TBP活性方面发挥着重要作用。为了了解TBP活性在全基因组范围内是如何被调控的,我们使用染色质免疫沉淀(ChIP)芯片技术,对指数生长期细胞以及转录重编程过程中的酵母全基因组范围内TBP、NC2、Mot1p、TFIID、SAGA和pol II的结合情况进行了分析。我们发现TBP、NC2和Mot1p共定位于转录活跃的pol II核心启动子上。NC2α和Mot1p在TATA启动子上的相对结合较高,而NC2β则更倾向于无TATA的启动子。与ChIP芯片数据一致,我们从染色质提取物中分离出了一种稳定的TBP-NC2-Mot1p-DNA复合物。ATP水解可使NC2和DNA从Mot1p-TBP复合物中释放出来。体内实验表明,TBP和NC2从启动子上的解离具有高度动态性,这依赖于Mot1p的功能。基于这些结果,我们提出NC2和Mot1p协同作用,动态限制TBP在转录启动子上的活性。