荧光法在DEAD-box解旋酶机理研究中的应用。

Q2 Medicine
Alexandra Z Andreou, Dagmar Klostermeier
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引用次数: 3

摘要

DEAD-box蛋白催化atp依赖的RNA双链解绕,并伴随RNA分子在其细胞生命中。DEAD-box蛋白解旋酶核心的构象变化与双解旋密切相关。在没有配体的情况下,解旋酶核心的两个RecA结构域是分开的。ATP和RNA结合诱导RecA结构域之间的间隙关闭,这与结合RNA的扭曲相结合,导致双不稳定和一条RNA链的解离。解旋酶核心的重新打开发生在ATP水解之后,并与磷酸释放和第二RNA链的解离相结合。荧光光谱提供了一系列研究分子间相互作用、局部结构重排或生物分子大构象变化的方法。荧光团的荧光强度反映了它所处的环境,荧光各向异性反映了荧光团所属的分子实体的大小。因此,荧光强度和各向异性是报告结合和解离事件的敏感探针。荧光共振能量转移(FRET)报告两个荧光团之间的距离,从而对构象变化。单分子FRET实验揭示了构象态的分布及其相互转化的动力学。本章总结了用于监测DEAD-box蛋白活性各个方面的荧光方法,从核苷酸和RNA结合、RNA解绕到催化循环中蛋白质和RNA构象变化,并举例说明了基于荧光的方法如何有助于理解DEAD-box解旋酶催化的RNA解绕机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fluorescence methods in the investigation of the DEAD-box helicase mechanism.

DEAD-box proteins catalyze the ATP-dependent unwinding of RNA duplexes and accompany RNA molecules throughout their cellular life. Conformational changes in the helicase core of DEAD-box proteins are intimately linked to duplex unwinding. In the absence of ligands, the two RecA domains of the helicase core are separated. ATP and RNA binding induces a closure of the cleft between the RecA domains that is coupled to the distortion of bound RNA, leading to duplex destabilization and dissociation of one RNA strand. Reopening of the helicase core occurs after ATP hydrolysis and is coupled to phosphate release and dissociation of the second RNA strand.Fluorescence spectroscopy provides an array of approaches to study intermolecular interactions, local structural rearrangements, or large conformational changes of biomolecules. The fluorescence intensity of a fluorophore reports on its environment, and fluorescence anisotropy reflects the size of the molecular entity the fluorophore is part of. Fluorescence intensity and anisotropy are therefore sensitive probes to report on binding and dissociation events. Fluorescence resonance energy transfer (FRET) reports on the distance between two fluorophores and thus on conformational changes. Single-molecule FRET experiments reveal the distribution of conformational states and the kinetics of their interconversion. This chapter summarizes fluorescence approaches for monitoring individual aspects of DEAD-box protein activity, from nucleotide and RNA binding and RNA unwinding to protein and RNA conformational changes in the catalytic cycle, and illustrates exemplarily how fluorescence-based methods have contributed to understanding the mechanism of DEAD-box helicase-catalyzed RNA unwinding.

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来源期刊
Experientia supplementum (2012)
Experientia supplementum (2012) Medicine-Medicine (all)
CiteScore
3.30
自引率
0.00%
发文量
24
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