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本文引用的文献

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Heat shock transcription factors: structure and regulation.热休克转录因子:结构与调控
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2
Identification of transcriptional activation and inhibitory domains in serum response factor (SRF) by using GAL4-SRF constructs.利用GAL4-SRF构建体鉴定血清反应因子(SRF)中的转录激活和抑制结构域。
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Drosophila tissue-specific transcription factor NTF-1 contains a novel isoleucine-rich activation motif.果蝇组织特异性转录因子NTF-1含有一个新的富含异亮氨酸的激活基序。
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4
A glutamine-rich hydrophobic patch in transcription factor Sp1 contacts the dTAFII110 component of the Drosophila TFIID complex and mediates transcriptional activation.转录因子Sp1中富含谷氨酰胺的疏水区域与果蝇TFIID复合物的dTAFII110组分相互作用,并介导转录激活。
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Jak-STAT pathways and transcriptional activation in response to IFNs and other extracellular signaling proteins.Jak-STAT信号通路以及对干扰素和其他细胞外信号蛋白的转录激活。
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Architectural transcription factors.结构转录因子
Science. 1994 May 20;264(5162):1100-1. doi: 10.1126/science.8178167.
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Transcriptional activation: a complex puzzle with few easy pieces.转录激活:一个几乎没有简单拼图块的复杂谜题。
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9
A sequence-specific, single-strand binding protein activates the far upstream element of c-myc and defines a new DNA-binding motif.一种序列特异性单链结合蛋白激活c-myc的远上游元件并定义了一种新的DNA结合基序。
Genes Dev. 1994 Feb 15;8(4):465-80. doi: 10.1101/gad.8.4.465.
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在单链结合蛋白FBP的羧基末端结构域中发现了一个独特的反式激活序列基序。

A unique transactivation sequence motif is found in the carboxyl-terminal domain of the single-strand-binding protein FBP.

作者信息

Duncan R, Collins I, Tomonaga T, Zhang T, Levens D

机构信息

Laboratory of Pathology, National Cancer Institute, Bethesda, Maryland 20892, USA.

出版信息

Mol Cell Biol. 1996 May;16(5):2274-82. doi: 10.1128/MCB.16.5.2274.

DOI:10.1128/MCB.16.5.2274
PMID:8628294
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC231215/
Abstract

The far-upstream element-binding protein (FBP) is one of several recently described factors which bind to a single strand of DNA in the 5' region of the c-myc gene. Although cotransfection of FBP increases expression from a far-upstream element-bearing c-myc promoter reporter, the mechanism of this stimulation is heretofore unknown. Can a single-strand-binding protein function as a classical transactivator, or are these proteins restricted to stabilizing or altering the conformation of DNA in an architectural role? Using chimeric GAL4-FBP fusion proteins we have shown that the carboxyl-terminal region (residues 448 to 644) is a potent transcriptional activation domain. This region contains three copies of a unique amino acid sequence motif containing tyrosine diads. Analysis of deletion mutants demonstrated that a single tyrosine motif alone (residues 609 to 644) was capable of activating transcription. The activation property of the C-terminal domain is repressed by the N-terminal 107 amino acids of FBP. These results show that FBP contains a transactivation domain which can function alone, suggesting that FBP contributes directly to c-myc transcription while bound to a single-strand site. Furthermore, activation is mediated by a new motif which can be negatively regulated by a repression domain of FBP.

摘要

远上游元件结合蛋白(FBP)是最近描述的几种与c-myc基因5'区域单链DNA结合的因子之一。尽管FBP的共转染增加了含远上游元件的c-myc启动子报告基因的表达,但这种刺激的机制迄今尚不清楚。单链结合蛋白能否作为经典的反式激活因子发挥作用,或者这些蛋白是否仅限于在结构作用中稳定或改变DNA的构象?使用嵌合GAL4-FBP融合蛋白,我们已经表明羧基末端区域(第448至644位氨基酸)是一个有效的转录激活结构域。该区域包含三个独特的氨基酸序列基序拷贝,其中含有酪氨酸二联体。缺失突变体分析表明,单独一个酪氨酸基序(第609至644位氨基酸)就能够激活转录。FBP的N末端107个氨基酸抑制了C末端结构域的激活特性。这些结果表明,FBP包含一个可以单独发挥作用的反式激活结构域,这表明FBP在与单链位点结合时直接促进c-myc转录。此外,激活是由一个新的基序介导的,该基序可被FBP的一个抑制结构域负调控。