High-resolution, single-molecule measurements of biomolecular motion.

William J Greenleaf, Michael T Woodside, Steven M Block
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引用次数: 448

Abstract

Many biologically important macromolecules undergo motions that are essential to their function. Biophysical techniques can now resolve the motions of single molecules down to the nanometer scale or even below, providing new insights into the mechanisms that drive molecular movements. This review outlines the principal approaches that have been used for high-resolution measurements of single-molecule motion, including centroid tracking, fluorescence resonance energy transfer, magnetic tweezers, atomic force microscopy, and optical traps. For each technique, the principles of operation are outlined, the capabilities and typical applications are examined, and various practical issues for implementation are considered. Extensions to these methods are also discussed, with an eye toward future application to outstanding biological problems.

生物分子运动的高分辨率单分子测量。
许多具有重要生物学意义的大分子要经历对其功能至关重要的运动。生物物理技术现在可以解决纳米级甚至更低的单分子运动,为驱动分子运动的机制提供了新的见解。本文概述了用于高分辨率测量单分子运动的主要方法,包括质心跟踪、荧光共振能量转移、磁镊子、原子力显微镜和光学陷阱。对于每种技术,都概述了操作原理,检查了功能和典型应用程序,并考虑了实现的各种实际问题。对这些方法的扩展也进行了讨论,着眼于未来应用于突出的生物学问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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