ATP诱导的GroEL协同变构转变以全或无的方式促进蛋白质底物结构域的释放。
Concerted ATP-induced allosteric transitions in GroEL facilitate release of protein substrate domains in an all-or-none manner.
作者信息
Kipnis Yakov, Papo Niv, Haran Gilad, Horovitz Amnon
机构信息
Departments of Structural Biology and Chemical Physics, The Weizmann Institute of Science, Rehovot 76100, Israel.
出版信息
Proc Natl Acad Sci U S A. 2007 Feb 27;104(9):3119-24. doi: 10.1073/pnas.0700070104. Epub 2007 Feb 21.
Abstract
The double-ring chaperonin GroEL mediates protein folding, in conjunction with its helper protein GroES, by undergoing ATP-induced conformational changes that are concerted within each heptameric ring. Here we have examined whether the concerted nature of these transitions is responsible for protein substrate release in an all-or-none manner. Two chimeric substrates were designed, each with two different reporter activities that were recovered after denaturation in GroES-dependent and independent fashions, respectively. The refolding of the chimeras was monitored in the presence of GroEL variants that undergo ATP-induced intraring conformational changes that are either sequential (F44W/D155A) or concerted (F44W). Our results show that release of a protein substrate from GroEL in a domain-by-domain fashion is favored when the intraring allosteric transitions of GroEL are sequential and not concerted.
摘要
双环伴侣蛋白GroEL与其辅助蛋白GroES协同作用,通过经历ATP诱导的构象变化来介导蛋白质折叠,这种变化在每个七聚体环内是协同的。在这里,我们研究了这些转变的协同性质是否以全或无的方式导致蛋白质底物的释放。设计了两种嵌合底物,每种底物具有两种不同的报告活性,分别在依赖GroES和不依赖GroES的方式下变性后恢复。在存在经历ATP诱导的环内构象变化的GroEL变体的情况下监测嵌合体的重折叠,这些变化要么是顺序的(F44W/D155A)要么是协同的(F44W)。我们的结果表明,当GroEL的环内变构转变是顺序的而非协同的时,蛋白质底物以逐个结构域的方式从GroEL释放更受青睐。
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