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利用单分子荧光研究核小体核心颗粒的解聚与组装动力学

Nucleosome Core Particle Disassembly and Assembly Kinetics Studied Using Single-Molecule Fluorescence.

作者信息

Hazan Noa Plavner, Tomov Toma E, Tsukanov Roman, Liber Miran, Berger Yaron, Masoud Rula, Toth Katalin, Langowski Joerg, Nir Eyal

机构信息

Department of Chemistry and Ilse Katz Institute for Nanoscale Science and Technology, Ben-Gurion University of the Negev, Beer Sheva, Israel.

Division of Biophysics of Macromolecules, German Cancer Research Center, Heidelberg, Germany.

出版信息

Biophys J. 2015 Oct 20;109(8):1676-85. doi: 10.1016/j.bpj.2015.07.004.

DOI:10.1016/j.bpj.2015.07.004
PMID:26488658
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4623893/
Abstract

The stability of the nucleosome core particle (NCP) is believed to play a major role in regulation of gene expression. To understand the mechanisms that influence NCP stability, we studied stability and dissociation and association kinetics under different histone protein (NCP) and NaCl concentrations using single-pair Förster resonance energy transfer and alternating laser excitation techniques. The method enables distinction between folded, unfolded, and intermediate NCP states and enables measurements at picomolar to nanomolar NCP concentrations where dissociation and association reactions can be directly observed. We reproduced the previously observed nonmonotonic dependence of NCP stability on NaCl concentration, and we suggest that this rather unexpected behavior is a result of interplay between repulsive and attractive forces within positively charged histones and between the histones and the negatively charged DNA. Higher NaCl concentrations decrease the attractive force between the histone proteins and the DNA but also stabilize H2A/H2B histone dimers, and possibly (H3/H4)2 tetramers. An intermediate state in which one DNA arm is unwrapped, previously observed at high NaCl concentrations, is also explained by this salt-induced stabilization. The strong dependence of NCP stability on ion and histone concentrations, and possibly on other charged macromolecules, may play a role in chromosomal morphology.

摘要

核小体核心颗粒(NCP)的稳定性被认为在基因表达调控中起主要作用。为了理解影响NCP稳定性的机制,我们使用单对Förster共振能量转移和交替激光激发技术,研究了在不同组蛋白(NCP)和NaCl浓度下的稳定性、解离和缔合动力学。该方法能够区分折叠、未折叠和中间NCP状态,并能够在皮摩尔到纳摩尔的NCP浓度下进行测量,在此浓度下可以直接观察到解离和缔合反应。我们重现了之前观察到的NCP稳定性对NaCl浓度的非单调依赖性,并且我们认为这种相当意外的行为是带正电荷的组蛋白内部以及组蛋白与带负电荷的DNA之间的排斥力和吸引力相互作用的结果。较高的NaCl浓度会降低组蛋白与DNA之间的吸引力,但也会稳定H2A/H2B组蛋白二聚体,以及可能的(H3/H4)2四聚体。之前在高NaCl浓度下观察到的一种中间状态,即一条DNA臂解旋,也可以用这种盐诱导的稳定性来解释。NCP稳定性对离子和组蛋白浓度以及可能对其他带电荷的大分子的强烈依赖性,可能在染色体形态中起作用。

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