一种模型环状结构域的自组装特性
Self-assembly properties of a model RING domain.
作者信息
Kentsis Alex, Gordon Ronald E, Borden Katherine L B
机构信息
Department of Physiology and Biophysics, Mount Sinai School of Medicine, New York University, New York, NY 10029, USA.
出版信息
Proc Natl Acad Sci U S A. 2002 Jan 22;99(2):667-72. doi: 10.1073/pnas.012317299. Epub 2002 Jan 15.
Abstract
RING domains act in a variety of essential cellular processes but have no general function ascribed to them. Here, we observe that purified arenaviral protein Z, constituted almost entirely by its RING domain, self-assembles in vitro into spherical structures that resemble functional bodies formed by Z in infected cells. By using a variety of biophysical methods we provide a thermodynamic and kinetic framework for the RING-dependent self-assembly of Z. Assembly appears coupled to substantial conformational reorganization and changes in zinc coordination of site II of the RING. Thus, the rate-limiting nature of conformational reorganization observed in the folding of monomeric proteins can also apply to the assembly of macromolecular scaffolds. These studies describe a unique mechanism of nonfibrillar homogeneous self-assembly and suggest a general function of RINGs in the formation of macromolecular scaffolds that are positioned to integrate biochemical processes in cells.
摘要
环状结构域参与多种重要的细胞过程,但尚未发现它们具有普遍的特定功能。在此,我们观察到纯化的沙粒病毒蛋白Z几乎完全由其环状结构域构成,它在体外自组装成球形结构,类似于Z在受感染细胞中形成的功能体。通过使用多种生物物理方法,我们为Z依赖环状结构域的自组装提供了一个热力学和动力学框架。组装似乎与显著的构象重组以及环状结构域II位点锌配位的变化相关联。因此,在单体蛋白折叠过程中观察到的构象重组的限速特性也可应用于大分子支架的组装。这些研究描述了一种非纤维状均匀自组装的独特机制,并提示环状结构域在形成定位整合细胞内生化过程的大分子支架中具有普遍功能。
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