Fluorescence correlation spectroscopy: novel variations of an established technique.

Annual review of biophysics and biomolecular structure Pub Date : 2007-01-01 DOI:10.1146/annurev.biophys.36.040306.132612

Elke Haustein, Petra Schwille

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引用次数: 512

Abstract

Fluorescence correlation spectroscopy (FCS) is one of the major biophysical techniques used for unraveling molecular interactions in vitro and in vivo. It allows minimally invasive study of dynamic processes in biological specimens with extremely high temporal and spatial resolution. By recording and correlating the fluorescence fluctuations of single labeled molecules through the exciting laser beam, FCS gives information on molecular mobility and photophysical and photochemical reactions. By using dual-color fluorescence cross-correlation, highly specific binding studies can be performed. These have been extended to four reaction partners accessible by multicolor applications. Alternative detection schemes shift accessible time frames to slower processes (e.g., scanning FCS) or higher concentrations (e.g., TIR-FCS). Despite its long tradition, FCS is by no means dated. Rather, it has proven to be a highly versatile technique that can easily be adapted to solve specific biological questions, and it continues to find exciting applications in biology and medicine.

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荧光相关光谱学:一种已建立的技术的新变化。

荧光相关光谱(FCS)是用于揭示分子在体内和体外相互作用的主要生物物理技术之一。它允许以极高的时间和空间分辨率对生物标本的动态过程进行微创研究。通过激发激光束记录和关联单个标记分子的荧光波动，FCS提供了分子迁移率和光物理和光化学反应的信息。通过使用双色荧光相互关联，可以进行高度特异性的结合研究。这些已扩展到四个反应伙伴，可通过多色应用访问。替代检测方案将可获得的时间框架转移到较慢的过程(例如，扫描FCS)或较高浓度(例如，TIR-FCS)。尽管FCS有着悠久的传统，但它并不过时。相反，它已经被证明是一种高度通用的技术，可以很容易地适应于解决特定的生物学问题，并且它继续在生物学和医学中找到令人兴奋的应用。

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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Annual review of biophysics and biomolecular structure

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