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2
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3
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4
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本文引用的文献

1
A new pattern for helix-turn-helix recognition revealed by the PU.1 ETS-domain-DNA complex.PU.1 ETS结构域-DNA复合物揭示的螺旋-转角-螺旋识别新模式。
Nature. 1996 Apr 4;380(6573):456-60. doi: 10.1038/380456a0.
2
Solution structure of the ETS domain from murine Ets-1: a winged helix-turn-helix DNA binding motif.小鼠Ets-1的ETS结构域的溶液结构:一种翼状螺旋-转角-螺旋DNA结合基序。
EMBO J. 1996 Jan 2;15(1):125-34.
3
The ETS-domain transcription factors Elk-1 and SAP-1 exhibit differential DNA binding specificities.ETS 结构域转录因子 Elk-1 和 SAP-1 表现出不同的 DNA 结合特异性。
Nucleic Acids Res. 1995 Nov 25;23(22):4698-706. doi: 10.1093/nar/23.22.4698.
4
The solution structure of the human ETS1-DNA complex reveals a novel mode of binding and true side chain intercalation.人ETS1-DNA复合物的溶液结构揭示了一种新的结合模式和真正的侧链嵌入。
Cell. 1995 Dec 1;83(5):761-71. doi: 10.1016/0092-8674(95)90189-2.
5
Functional analysis of a growth factor-responsive transcription factor complex.生长因子反应性转录因子复合物的功能分析
Cell. 1993 Apr 23;73(2):395-406. doi: 10.1016/0092-8674(93)90238-l.
6
The Ets family of transcription factors.Ets转录因子家族。
Eur J Biochem. 1993 Jan 15;211(1-2):7-18. doi: 10.1007/978-3-642-78757-7_2.
7
Evolution of the ets gene family.ets基因家族的进化
Biochem Biophys Res Commun. 1993 Jan 15;190(1):8-14. doi: 10.1006/bbrc.1993.1002.
8
Identification of amino acids essential for DNA binding and dimerization in p67SRF: implications for a novel DNA-binding motif.鉴定p67SRF中DNA结合和二聚化所必需的氨基酸:对一种新型DNA结合基序的启示。
Mol Cell Biol. 1993 Jan;13(1):123-32. doi: 10.1128/mcb.13.1.123-132.1993.
9
c-fos transcriptional activation and repression correlate temporally with the phosphorylation status of TCF.c-fos转录激活与抑制在时间上与TCF的磷酸化状态相关。
EMBO J. 1993 Jun;12(6):2377-87. doi: 10.1002/j.1460-2075.1993.tb05892.x.
10
The SRF accessory protein Elk-1 contains a growth factor-regulated transcriptional activation domain.血清反应因子辅助蛋白Elk-1含有一个受生长因子调控的转录激活结构域。
Cell. 1993 Apr 23;73(2):381-93. doi: 10.1016/0092-8674(93)90237-k.

ETS 结构域转录因子 DNA 结合特异性的决定因素。

Determinants of DNA-binding specificity of ETS-domain transcription factors.

作者信息

Shore P, Whitmarsh A J, Bhaskaran R, Davis R J, Waltho J P, Sharrocks A D

机构信息

Department of Biochemistry and Genetics, The Medical School, University of Newcastle upon Tyne, United Kingdom.

出版信息

Mol Cell Biol. 1996 Jul;16(7):3338-49. doi: 10.1128/MCB.16.7.3338.

DOI:10.1128/MCB.16.7.3338
PMID:8668149
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC231328/
Abstract

Several mechanisms are employed by members of transcription factor families to achieve sequence-specific DNA recognition. In this study, we have investigated how members of the ETS-domain transcription factor family achieve such specificity. We have used the ternary complex factor (TCF) subfamily as an example. ERK2 mitogen-activated protein kinase stimulates serum response factor-dependent and autonomous DNA binding by the TCFs Elk-1 and SAP-la. Phosphorylated Elk-1 and SAP-la exhibit specificities of DNA binding similar to those of their isolated ETS domains. The ETS domains of Elk-1 and SAP-la and SAP-2 exhibit related but distinct DNA-binding specificities. A single residue, D-69 (Elk-1) or V-68 (SAP-1), has been identified as the critical determinant for the differential binding specificities of Elk-1 and SAP-1a, and an additional residue, D-38 (Elk-1) or Q-37 (SAP-1), further modulates their DNA binding. Creation of mutations D38Q and D69V is sufficient to confer SAP-la DNA-binding specificity upon Elk-1 and thereby allow it to bind to a greater spectrum of sites. Molecular modelling indicates that these two residues (D-38 and D-69) are located away from the DNA-binding interface of Elk-1. Our data suggest a mechanism in which these residues modulate DNA binding by influencing the interaction of other residues with DNA.

摘要

转录因子家族成员采用多种机制来实现对特定序列DNA的识别。在本研究中,我们探究了ETS结构域转录因子家族成员是如何实现这种特异性的。我们以三元复合因子(TCF)亚家族为例进行研究。ERK2丝裂原活化蛋白激酶可刺激血清反应因子依赖的以及三元复合因子Elk-1和SAP-1a自主的DNA结合。磷酸化的Elk-1和SAP-1a表现出与它们分离的ETS结构域相似的DNA结合特异性。Elk-1、SAP-1a和SAP-2的ETS结构域表现出相关但不同的DNA结合特异性。已确定单个残基,即Elk-1中的D-69或SAP-1中的V-68,是Elk-1和SAP-1a差异结合特异性的关键决定因素,另一个残基,即Elk-1中的D-38或SAP-1中的Q-37,进一步调节它们的DNA结合。创建D38Q和D69V突变足以赋予Elk-1 SAP-1a的DNA结合特异性,从而使其能够结合更多种类的位点。分子建模表明这两个残基(D-38和D-69)位于远离Elk-1的DNA结合界面处。我们的数据表明了一种机制,即这些残基通过影响其他残基与DNA的相互作用来调节DNA结合。