包装、拆开、弯曲、扭曲、拉伸、推动：基因表达的物理方面。

Pack, unpack, bend, twist, pull, push: the physical side of gene expression.

机构信息

National Museum of Natural History, Paris, France; CNRS UMR7196, Paris, France; INSERM U1154, Paris, France; Nuclear Architecture and Dynamics, CNRS GDR3536, Paris, France.

出版信息

Curr Opin Genet Dev. 2014 Apr;25:74-84. doi: 10.1016/j.gde.2014.01.001. Epub 2014 Feb 25.

DOI:10.1016/j.gde.2014.01.001

PMID:24576847

Abstract

Molecular motors such as polymerases produce physical constraints on DNA and chromatin. Recent techniques, in particular single-molecule micromanipulation, provide estimation of the forces and torques at stake. These biophysical approaches have improved our understanding of chromatin behaviour under physiological physical constraints and should, in conjunction with genome wide and in vivo studies, help to build more realistic mechanistic models of transcription in the context of chromatin. Here, we wish to provide a brief overview of our current knowledge in the field, and emphasize at the same time the importance of DNA supercoiling as a major parameter in gene regulation.

摘要

分子马达（如聚合酶）会对 DNA 和染色质产生物理约束。最近的技术，特别是单分子微操作技术，提供了对相关力和扭矩的估计。这些生物物理方法提高了我们对生理物理约束下染色质行为的理解，并且应该与全基因组和体内研究相结合，有助于在染色质背景下构建更现实的转录机制模型。在这里，我们希望简要概述该领域的现有知识，并同时强调 DNA 超螺旋作为基因调控主要参数的重要性。

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包装、拆开、弯曲、扭曲、拉伸、推动：基因表达的物理方面。

Pack, unpack, bend, twist, pull, push: the physical side of gene expression.

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