Strausak D, Solioz M
Department of Clinical Pharmacology, University of Berne, 3010 Berne, Switzerland.
J Biol Chem. 1997 Apr 4;272(14):8932-6. doi: 10.1074/jbc.272.14.8932.
The cop operon of Enterococcus hirae effects copper homeostasis in this organism. It encodes a repressor, CopY, an activator, CopZ, and two P-type copper ATPases, CopA and CopB. Expression of all four genes is regulated by the ambient copper. In this regulation, CopY apparently acts as a copper-inducible repressor. By DNase I footprinting, it was shown that purified CopY protected two discrete sites in the region encompassing nucleotides -71 to -11 relative to the translational start site and containing hyphenated inverted repeats. Transcription is initiated between these repeats at nucleotide -42, in a domain that remained accessible to DNase I in the DNA-repressor complex. Chemical cross-linking revealed that CopY exists as a dimer in solution. In DNA band-shift assays, it was apparent that the CopY-DNA interaction occurred in two discrete steps. Half-maximal binding of repressor to the two operator sites was observed at 2 x 10(-9) M and 5 x 10(-9) M CopY, respectively. Copper ions released CopY from the promoter/operator with an apparent half-binding constant for Cu(I) of 20 microM. The site-directed mutations A-61T and A-30T essentially abolished the binding of CopY to the respective binding sites, and the double mutation A-61T/A-30T inactivated both binding sites. Thus, CopY is a copper-inducible repressor of the cop operon of E. hirae, exhibiting highly specific DNA-protein interactions with two sites on the cop promoter/operator and playing a key role in copper homeostasis in E. hirae.
希氏肠球菌的cop操纵子影响该生物体中的铜稳态。它编码一种阻遏蛋白CopY、一种激活蛋白CopZ以及两种P型铜ATP酶CopA和CopB。所有这四个基因的表达都受环境铜的调控。在这种调控中,CopY显然作为一种铜诱导型阻遏蛋白发挥作用。通过DNA酶I足迹法表明,纯化的CopY保护了相对于翻译起始位点包含核苷酸-71至-11且含有间断反向重复序列的区域中的两个离散位点。转录在这些重复序列之间的核苷酸-42处起始,在DNA-阻遏蛋白复合物中DNA酶I仍可接近的一个结构域内。化学交联显示CopY在溶液中以二聚体形式存在。在DNA带迁移分析中,很明显CopY与DNA的相互作用分两个离散步骤发生。阻遏蛋白与两个操纵基因位点的半数最大结合分别在2×10⁻⁹ M和5×10⁻⁹ M的CopY浓度下观察到。铜离子以20 μM的Cu(I)表观半数结合常数使CopY从启动子/操纵基因上解离。定点突变A-61T和A-30T基本上消除了CopY与各自结合位点的结合,而双突变A-61T/A-’30T使两个结合位点均失活。因此,CopY是希氏肠球菌cop操纵子的铜诱导型阻遏蛋白,与cop启动子/操纵基因上的两个位点表现出高度特异性的DNA-蛋白质相互作用,并在希氏肠球菌的铜稳态中起关键作用。
