单分子 FRET 中的能量转移效率和荧光寿命分布理论。

Theory of the energy transfer efficiency and fluorescence lifetime distribution in single-molecule FRET.

机构信息

Laboratory of Chemical Physics, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Proc Natl Acad Sci U S A. 2012 May 15;109(20):7747-52. doi: 10.1073/pnas.1205120109. Epub 2012 May 1.

DOI:10.1073/pnas.1205120109

PMID:22550169

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3356627/

Abstract

In single-molecule FRET experiments with pulsed lasers, not only the colors of the photons but also the fluorescence lifetimes can be monitored. Although these quantities appear to be random, they are modulated by conformational dynamics. In order to extract information about such dynamics, we develop the theory of the joint distribution of FRET efficiencies and fluorescence lifetimes determined from bins (or bursts) of photons. Our starting point is a rigorous formal expression for the distribution of the numbers of donor and acceptor photons and donor lifetimes in a bin that treats the influence of conformational dynamics on all timescales. This formula leads to an analytic result for a two-state system interconverting on a timescale slower than the interphoton time and to an efficient simulation algorithm for multistate dynamics. The shape of the joint distribution contains more information about conformational dynamics than the FRET efficiency histogram alone. In favorable cases, the connectivity of the underlying conformational states can be determined directly by simple inspection of the projection of the joint distribution on the efficiency-lifetime plane.

摘要

在使用脉冲激光的单分子 FRET 实验中，不仅可以监测光子的颜色，还可以监测荧光寿命。尽管这些量似乎是随机的，但它们受到构象动力学的调制。为了提取有关这种动力学的信息，我们开发了从光子的 bin（或突发）中确定的 FRET 效率和荧光寿命的联合分布的理论。我们的出发点是一个严格的公式，用于描述一个 bin 中供体和受体光子的数量和供体寿命的分布，该公式考虑了构象动力学对所有时间尺度的影响。该公式为在比光子间时间慢的时间尺度上相互转换的两态系统提供了一个解析结果，并为多态动力学提供了一种有效的模拟算法。联合分布的形状比单独的 FRET 效率直方图包含更多关于构象动力学的信息。在有利的情况下，可以通过简单地检查联合分布在效率-寿命平面上的投影来直接确定基础构象状态的连接性。

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