蛋白质介导的分子桥接：生物聚合物组织中的关键机制。

Protein-mediated molecular bridging: a key mechanism in biopolymer organization.

作者信息

Wiggins Paul A, Dame Remus Th, Noom Maarten C, Wuite Gijs J L

机构信息

Whitehead Institute for Biomedical Research, Cambridge, Massachusetts, USA.

出版信息

Biophys J. 2009 Oct 7;97(7):1997-2003. doi: 10.1016/j.bpj.2009.06.051.

DOI:10.1016/j.bpj.2009.06.051

PMID:19804731

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2756379/

Abstract

Protein-mediated bridging is ubiquitous and essential for shaping cellular structures in all organisms. Here we dissect this mechanism for a model system: the Histone-like Nucleoid-Structuring protein (H-NS). We present data from two complementary single-molecule assays that probe the H-NS-DNA interaction: a dynamic optical-trap-driven unzipping assay and an equilibrium H-NS-mediated DNA looping scanning force microscopy imaging assay. To quantitatively analyze and compare these assays, we employ what we consider a novel theoretical framework that describes the bridging motif. The interplay between the experiments and our theoretical model not only infers the effective interaction free energy, the bridging conformation and the duplex-duplex spacing, but also reveals a second, unresolved, cis-binding mode that challenges our current understanding of the role of bridging proteins in chromatin structure. We expect that this theoretical framework for describing protein-mediated bridging will be applicable to proteins acting in chromatin and cytoskeletal organization.

摘要

蛋白质介导的桥接作用普遍存在，对于塑造所有生物体中的细胞结构至关重要。在这里，我们剖析了一个模型系统的这种机制：类组蛋白核仁结构蛋白（H-NS）。我们展示了来自两种互补的单分子检测的数据，这些检测探测了H-NS与DNA的相互作用：一种动态光镊驱动的解链检测和一种平衡的H-NS介导的DNA环化扫描力显微镜成像检测。为了定量分析和比较这些检测，我们采用了我们认为是一种描述桥接基序的新颖理论框架。实验与我们的理论模型之间的相互作用不仅推断出有效的相互作用自由能、桥接构象和双链-双链间距，还揭示了第二种未解决的顺式结合模式，这对我们目前对桥接蛋白在染色质结构中作用的理解提出了挑战。我们预计，这种描述蛋白质介导的桥接作用的理论框架将适用于在染色质和细胞骨架组织中起作用的蛋白质。

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