利用可切换的 FRET 监测单个分子内的多个距离。

Monitoring multiple distances within a single molecule using switchable FRET.

机构信息

Biological Physics Research Group, Department of Physics, University of Oxford, Oxford, UK.

出版信息

Nat Methods. 2010 Oct;7(10):831-6. doi: 10.1038/nmeth.1502. Epub 2010 Sep 5.

PMID:20818380

Abstract

The analysis of structure and dynamics of biomolecules is important for understanding their function. Toward this aim, we introduce a method called 'switchable FRET', which combines single-molecule fluorescence resonance energy transfer (FRET) with reversible photoswitching of fluorophores. Typically, single-molecule FRET is measured within a single donor-acceptor pair and reports on only one distance. Although multipair FRET approaches that monitor multiple distances have been developed, they are technically challenging and difficult to extend, mainly because of their reliance on spectrally distinct acceptors. In contrast, switchable FRET sequentially probes FRET between a single donor and spectrally identical photoswitchable acceptors, dramatically reducing the experimental and analytical complexity and enabling direct monitoring of multiple distances. Our experiments on DNA molecules, a protein-DNA complex and dynamic Holliday junctions demonstrate the potential of switchable FRET for studying dynamic, multicomponent biomolecules.

摘要

分析生物分子的结构和动力学对于理解它们的功能非常重要。为此，我们引入了一种称为“可切换 FRET”的方法，它将单分子荧光共振能量转移（FRET）与荧光团的可逆光开关相结合。通常，单分子 FRET 在单个供体-受体对内进行测量，仅报告一个距离。尽管已经开发出了监测多个距离的多对 FRET 方法，但它们在技术上具有挑战性且难以扩展，主要是因为它们依赖于光谱上不同的受体。相比之下，可切换 FRET 依次探测单个供体和光谱相同的光可切换受体之间的 FRET，大大降低了实验和分析的复杂性，并能够直接监测多个距离。我们在 DNA 分子、蛋白质-DNA 复合物和动态 Holliday 连接点上的实验证明了可切换 FRET 用于研究动态、多组分生物分子的潜力。

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利用可切换的 FRET 监测单个分子内的多个距离。

Monitoring multiple distances within a single molecule using switchable FRET.

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