Mac1p的第二个富含半胱氨酸的结构域是一种有效的反式激活因子，可调节该蛋白质的DNA结合效率和功能。

The second cysteine-rich domain of Mac1p is a potent transactivator that modulates DNA binding efficiency and functionality of the protein.

作者信息

Voutsina A, Fragiadakis G S, Boutla A, Alexandraki D

机构信息

Foundation for Research and Technology-HELLAS, Institute of Molecular Biology and Biotechnology, Heraklion, Crete, Greece.

出版信息

FEBS Lett. 2001 Apr 6;494(1-2):38-43. doi: 10.1016/s0014-5793(01)02298-0.

DOI:10.1016/s0014-5793(01)02298-0

PMID:11297731

Abstract

Mac1p is a Saccharomyces cerevisiae DNA binding transcription factor that activates genes involved in copper uptake. A copper-induced N-C-terminal intramolecular interaction and copper-independent homodimerization affect its function. Here, we present a functional analysis of Mac1p deletion derivatives that attributes new roles to the second cysteine-rich (REPII) domain of the protein. This domain exhibits the copper-responsive potent transactivation function when assayed independently and, in the context of the entire protein, modulates the efficiency of Mac1p binding to DNA. The efficiency of binding to both copper-response promoter elements can determine the in vivo functionality of Mac1p independent of homodimerization.

摘要

Mac1p是一种酿酒酵母DNA结合转录因子，可激活参与铜摄取的基因。铜诱导的N端分子内相互作用和与铜无关的同源二聚化会影响其功能。在这里，我们对Mac1p缺失衍生物进行了功能分析，该分析赋予了该蛋白质的第二个富含半胱氨酸（REPII）结构域新的作用。当单独检测时，该结构域表现出铜响应的强反式激活功能，并且在整个蛋白质的背景下，调节Mac1p与DNA结合的效率。与两个铜响应启动子元件的结合效率可以决定Mac1p在体内的功能，而与同源二聚化无关。

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Mac1p的第二个富含半胱氨酸的结构域是一种有效的反式激活因子，可调节该蛋白质的DNA结合效率和功能。

The second cysteine-rich domain of Mac1p is a potent transactivator that modulates DNA binding efficiency and functionality of the protein.

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