利用多阶时间关联函数（TCF）从微秒级单分子荧光实验中阐明生物分子反应途径。

Using Multiorder Time-Correlation Functions (TCFs) To Elucidate Biomolecular Reaction Pathways from Microsecond Single-Molecule Fluorescence Experiments.

作者信息

Phelps Carey, Israels Brett, Marsh Morgan C, von Hippel Peter H, Marcus Andrew H

机构信息

Institute of Molecular Biology and Department of Chemistry and Biochemistry and ‡Oregon Center for Optical, Molecular and Quantum Science and Department of Chemistry and Biochemistry, University of Oregon , Eugene, Oregon 97403, United States.

出版信息

J Phys Chem B. 2016 Dec 29;120(51):13003-13016. doi: 10.1021/acs.jpcb.6b08449. Epub 2016 Dec 19.

DOI:10.1021/acs.jpcb.6b08449

PMID:27992233

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5610910/

Abstract

Recent advances in single-molecule fluorescence imaging have made it possible to perform measurements on microsecond time scales. Such experiments have the potential to reveal detailed information about the conformational changes in biological macromolecules, including the reaction pathways and dynamics of the rearrangements involved in processes, such as sequence-specific DNA "breathing" and the assembly of protein-nucleic acid complexes. Because microsecond-resolved single-molecule trajectories often involve "sparse" data, that is, they contain relatively few data points per unit time, they cannot be easily analyzed using the standard protocols that were developed for single-molecule experiments carried out with tens-of-millisecond time resolution and high "data density." Here, we describe a generalized approach, based on time-correlation functions, to obtain kinetic information from microsecond-resolved single-molecule fluorescence measurements. This approach can be used to identify short-lived intermediates that lie on reaction pathways connecting relatively long-lived reactant and product states. As a concrete illustration of the potential of this methodology for analyzing specific macromolecular systems, we accompany the theoretical presentation with the description of a specific biologically relevant example drawn from studies of reaction mechanisms of the assembly of the single-stranded DNA binding protein of the T4 bacteriophage replication complex onto a model DNA replication fork.

摘要

单分子荧光成像技术的最新进展使得在微秒时间尺度上进行测量成为可能。此类实验有潜力揭示生物大分子构象变化的详细信息，包括诸如序列特异性DNA“呼吸”以及蛋白质 - 核酸复合物组装等过程中所涉及的重排反应途径和动力学。由于微秒分辨的单分子轨迹通常涉及“稀疏”数据，即它们每单位时间包含的数据点相对较少，因此无法轻易使用为具有数十毫秒时间分辨率和高“数据密度”的单分子实验所开发的标准方案进行分析。在此处，我们描述一种基于时间关联函数的通用方法，用于从微秒分辨的单分子荧光测量中获取动力学信息。该方法可用于识别位于连接相对长寿命反应物和产物状态的反应途径上的短寿命中间体。作为该方法分析特定大分子系统潜力的具体例证，我们在理论阐述的同时，描述了一个从T4噬菌体复制复合物的单链DNA结合蛋白组装到模型DNA复制叉的反应机制研究中选取的特定生物学相关实例。

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