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人源c-Myc癌蛋白在酵母中的转录激活需要与Max相互作用。

Transcriptional activation by the human c-Myc oncoprotein in yeast requires interaction with Max.

作者信息

Amati B, Dalton S, Brooks M W, Littlewood T D, Evan G I, Land H

机构信息

Growth Control and Development of the Cell Nucleus Laboratory, Imperial Cancer Research Fund, London, UK.

出版信息

Nature. 1992 Oct 1;359(6394):423-6. doi: 10.1038/359423a0.

Abstract

The c-myc protein (Myc) contains an amino-terminal transcriptional activation domain and a carboxy-terminal basic helix-loop-helix-leucine zipper (bHLH-Z) domain that directs dimerization of Myc with its partner, the max protein (Max), and promotes DNA binding to sites containing a CACGTG core consensus sequence. Despite these characteristics and the observation that Myc can modulate gene expression, a direct role for Myc or Max as transcription factors has never been demonstrated. Here we use Saccharomyces cerevisiae as an in vivo model system to show that the Myc protein is a sequence-specific transcriptional activator whose DNA binding is strictly dependent on dimerization with Max. Transactivation is mediated by the amino-terminal domain of Myc. We find that Max homodimers bind to the same DNA sequence as Myc+Max but that they fail to transactivate and thus can antagonize Myc+Max function. We also show that the Max HLH-Z domain has a higher affinity for the Myc HLH-Z domain than for itself, and suggest that the heterodimeric Myc+Max activator forms preferentially at equilibrium.

摘要

c-myc蛋白(Myc)包含一个氨基末端转录激活结构域和一个羧基末端碱性螺旋-环-螺旋-亮氨酸拉链(bHLH-Z)结构域,该结构域指导Myc与其伙伴max蛋白(Max)二聚化,并促进DNA与含有CACGTG核心共有序列的位点结合。尽管有这些特性,且观察到Myc可调节基因表达,但Myc或Max作为转录因子的直接作用从未得到证实。在这里,我们使用酿酒酵母作为体内模型系统,以表明Myc蛋白是一种序列特异性转录激活因子,其DNA结合严格依赖于与Max的二聚化。转录激活由Myc的氨基末端结构域介导。我们发现Max同二聚体与Myc+Max结合相同的DNA序列,但它们无法进行转录激活,因此可拮抗Myc+Max的功能。我们还表明,Max的HLH-Z结构域对Myc的HLH-Z结构域的亲和力高于对其自身的亲和力,并表明异二聚体Myc+Max激活因子在平衡状态下优先形成。

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