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在酿酒酵母TAF1蛋白N端鉴定出一个新的TATA元件结合蛋白结合区域。

Identification of a novel TATA element-binding protein binding region at the N terminus of the Saccharomyces cerevisiae TAF1 protein.

作者信息

Takahata Shinya, Ryu Hidei, Ohtsuki Kazushige, Kasahara Koji, Kawaichi Masashi, Kokubo Tetsuro

机构信息

Division of Molecular and Cellular Biology, Graduate School of Integrated Science, Yokohama City University, Yokohama 230-0045, USA.

出版信息

J Biol Chem. 2003 Nov 14;278(46):45888-902. doi: 10.1074/jbc.M306886200. Epub 2003 Aug 25.

DOI:10.1074/jbc.M306886200
PMID:12939271
Abstract

TFIID, a multiprotein complex composed of TATA element-binding protein (TBP) and 14 TBP-associated factors (TAFs), can directly recognize core promoter elements and mediate transcriptional activation. The TAF N-terminal domain (TAND) of TAF1 may play a significant role in these two principal TFIID functions by regulating the access of TBP to the TATA element. In yeast, TAND consists of two subdomains, TAND1 (10-37 amino acids (aa)) and TAND2 (46-71 aa), which interact with the concave and convex surfaces of TBP, respectively. Here we demonstrate that another region located on the C-terminal side of TAND2 (82-139 aa) can also bind to TBP and induce transcriptional activation when tethered to DNA as a GAL4 fusion protein. As these properties are the same as those of TAND1, we denoted this sequence as TAND3. Detailed mutational analyses revealed that three blocks of hydrophobic amino acid residues located within TAND3 are required not only for TBP binding and transcriptional activation but also for supporting cell growth and the efficient transcription of a subset of genes. We also show that the surface of TBP recognized by TAND3 is broader than that recognized by TAND1, although these regions overlap partially. Supporting these observations is that TAND1 can be at least partly functionally substituted by TAND3.

摘要

TFIID是一种由TATA元件结合蛋白(TBP)和14种TBP相关因子(TAFs)组成的多蛋白复合物,它可以直接识别核心启动子元件并介导转录激活。TAF1的TAF N端结构域(TAND)可能通过调节TBP与TATA元件的结合,在TFIID的这两种主要功能中发挥重要作用。在酵母中,TAND由两个亚结构域组成,即TAND1(第10 - 37个氨基酸(aa))和TAND2(第46 - 71个aa),它们分别与TBP的凹面和凸面相互作用。在这里,我们证明位于TAND2 C端一侧的另一个区域(第82 - 139个aa)也可以与TBP结合,并作为GAL4融合蛋白与DNA相连时诱导转录激活。由于这些特性与TAND1相同,我们将该序列命名为TAND3。详细的突变分析表明,位于TAND3内的三个疏水氨基酸残基块不仅是TBP结合和转录激活所必需的,也是支持细胞生长和一组基因有效转录所必需的。我们还表明,尽管TAND3和TAND1识别的区域部分重叠,但TAND3识别的TBP表面比TAND1识别的更宽。支持这些观察结果的是,TAND1至少可以部分地被TAND3功能替代。

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