锤头核酶的折叠:吡咯并胞嘧啶荧光分离核心折叠与整体折叠,并揭示了 pH 依赖性构象变化。
Folding of the hammerhead ribozyme: pyrrolo-cytosine fluorescence separates core folding from global folding and reveals a pH-dependent conformational change.
机构信息
Department of Microbiology and Molecular Genetics, University of Vermont, Burlington, Vermont 05405, USA.
出版信息
RNA. 2012 Mar;18(3):434-48. doi: 10.1261/rna.030999.111. Epub 2012 Jan 24.
Abstract
The catalytic activity of the hammerhead ribozyme is limited by its ability to fold into the native tertiary structure. Analysis of folding has been hampered by a lack of assays that can independently monitor the environment of nucleobases throughout the ribozyme-substrate complex in real time. Here, we report the development and application of a new folding assay in which we use pyrrolo-cytosine (pyC) fluorescence to (1) probe active-site formation, (2) examine the ability of peripheral ribozyme domains to support native folding, (3) identify a pH-dependent conformational change within the ribozyme, and (4) explore its influence on the equilibrium between the folded and unfolded core of the hammerhead ribozyme. We conclude that the natural ribozyme folds in two distinct noncooperative steps and the pH-dependent correlation between core folding and activity is linked to formation of the G8-C3 base pair.
摘要
锤头核酶的催化活性受到其自身折叠成天然三级结构能力的限制。由于缺乏能够独立实时监测核碱基在整个核酶-底物复合物环境的检测方法,对其折叠的分析受到了阻碍。在这里,我们报告了一种新的折叠检测方法的开发和应用,我们使用吡咯并胞嘧啶(pyC)荧光来(1)探测活性部位的形成,(2)研究外围核酶结构域对支持天然折叠的能力,(3)确定核酶内的一个 pH 依赖性构象变化,以及(4)探索其对锤头核酶折叠和未折叠核心之间平衡的影响。我们的结论是,天然核酶以两个截然不同的非协同步骤折叠,核心折叠与活性之间的 pH 依赖性相关性与 G8-C3 碱基对的形成有关。
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