Liu Jinyu, Huang Candice, Shin Dong-Hae, Yokota Hisao, Jancarik Jaru, Kim Jeong-Sun, Adams Paul D, Kim Rosalind, Kim Sung-Hou
Berkeley Structural Genomics Center, Physical Biosciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA.
J Mol Biol. 2005 Jul 29;350(5):987-96. doi: 10.1016/j.jmb.2005.04.021.
All cells have a defense mechanism against a sudden heat-shock stress. Commonly, they express a set of proteins that protect cellular proteins from being denatured by heat. Among them, GroE and DnaK chaperones are representative defending systems, and their transcription is regulated by a heat-shock repressor protein HrcA. HrcA repressor controls the transcription of groE and dnaK operons by binding the palindromic CIRCE element, presumably as a dimer, and the activity of HrcA repressor is modulated by GroE chaperones. Here, we report the first crystal structure of a heat-inducible transcriptional repressor, HrcA, from Thermotoga maritima at 2.2A resolution. The Tm_HrcA protein crystallizes as a dimer. The monomer is composed of three domains: an N-terminal winged helix-turn-helix domain (WH), a GAF-like domain, and an inserted dimerizing domain (IDD). The IDD shows a unique structural fold with an anti-parallel beta-sheet composed of three beta-strands sided by four alpha-helices. The Tm_HrcA dimer structure is formed through hydrophobic contact between the IDDs and a limited contact that involves conserved residues between the GAF-like domains. In the overall dimer structure, the two WH domains are exposed, but the conformation of these two domains seems to be incompatible with DNA binding. We suggest that our structure may represent an inactive form of the HrcA repressor. Structural implication on how the inactive form of HrcA may be converted to the active form by GroEL binding to a conserved C-terminal sequence region of HrcA is discussed.
所有细胞都有一种针对突然热休克应激的防御机制。通常,它们会表达一组蛋白质,以保护细胞蛋白质不被热变性。其中,GroE和DnaK伴侣蛋白是具有代表性的防御系统,它们的转录受热休克阻遏蛋白HrcA调控。HrcA阻遏蛋白通过结合回文CIRCE元件(可能以二聚体形式)来控制groE和dnaK操纵子的转录,并且HrcA阻遏蛋白的活性受GroE伴侣蛋白调节。在此,我们报道了来自嗜热栖热菌的热诱导转录阻遏蛋白HrcA的首个晶体结构,分辨率为2.2埃。Tm_HrcA蛋白以二聚体形式结晶。单体由三个结构域组成:一个N端带翼螺旋-转角-螺旋结构域(WH)、一个类GAF结构域和一个插入的二聚化结构域(IDD)。IDD呈现出一种独特的结构折叠,具有由三条β链和四条α螺旋构成的反平行β折叠片层。Tm_HrcA二聚体结构是通过IDD之间的疏水接触以及涉及类GAF结构域之间保守残基的有限接触形成的。在整体二聚体结构中,两个WH结构域暴露在外,但这两个结构域的构象似乎与DNA结合不相容。我们认为我们得到的结构可能代表了HrcA阻遏蛋白的无活性形式。文中讨论了关于HrcA的无活性形式如何通过GroEL与HrcA保守的C端序列区域结合而转化为活性形式的结构意义。
