When Force Met Fluorescence: Single-Molecule Manipulation and Visualization of Protein-DNA Interactions.

IF 10.4 1区生物学 Q1 BIOPHYSICS Annual Review of Biophysics Pub Date : 2024-07-01 Epub Date: 2024-06-28 DOI:10.1146/annurev-biophys-030822-032904

Gabriella N L Chua, Shixin Liu

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Abstract

Myriad DNA-binding proteins undergo dynamic assembly, translocation, and conformational changes while on DNA or alter the physical configuration of the DNA substrate to control its metabolism. It is now possible to directly observe these activities-often central to the protein function-thanks to the advent of single-molecule fluorescence- and force-based techniques. In particular, the integration of fluorescence detection and force manipulation has unlocked multidimensional measurements of protein-DNA interactions and yielded unprecedented mechanistic insights into the biomolecular processes that orchestrate cellular life. In this review, we first introduce the different experimental geometries developed for single-molecule correlative force and fluorescence microscopy, with a focus on optical tweezers as the manipulation technique. We then describe the utility of these integrative platforms for imaging protein dynamics on DNA and chromatin, as well as their unique capabilities in generating complex DNA configurations and uncovering force-dependent protein behaviors. Finally, we give a perspective on the future directions of this emerging research field.

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当力遇到荧光：蛋白质-DNA 相互作用的单分子操作和可视化。

无数 DNA 结合蛋白在 DNA 上发生动态组装、转运和构象变化，或改变 DNA 底物的物理构型以控制其新陈代谢。由于单分子荧光和力基技术的出现，现在有可能直接观察到这些活动，而这些活动往往是蛋白质功能的核心。特别是，荧光检测与力操纵的整合开启了蛋白质-DNA 相互作用的多维测量，并对协调细胞生命的生物分子过程产生了前所未有的机理认识。在这篇综述中，我们首先介绍了为单分子相关力和荧光显微镜开发的不同实验几何结构，重点是作为操纵技术的光学镊子。然后，我们介绍了这些综合平台在 DNA 和染色质上成像蛋白质动态的实用性，以及它们在生成复杂 DNA 构型和揭示力依赖性蛋白质行为方面的独特能力。最后，我们将展望这一新兴研究领域的未来发展方向。生物物理学年刊》（Annual Review of Biophysics）第 53 卷的最终在线出版日期预计为 2024 年 5 月。修订后的预计日期请参见 http://www.annualreviews.org/page/journal/pubdates。

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来源期刊

Annual Review of Biophysics 生物-生物物理

CiteScore

21.00

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0.00%

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期刊介绍： The Annual Review of Biophysics, in publication since 1972, covers significant developments in the field of biophysics, including macromolecular structure, function and dynamics, theoretical and computational biophysics, molecular biophysics of the cell, physical systems biology, membrane biophysics, biotechnology, nanotechnology, and emerging techniques.

期刊最新文献

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