呼吸、起泡与弯曲：多微秒模拟下的DNA灵活性

Breathing, bubbling, and bending: DNA flexibility from multimicrosecond simulations.

作者信息

Zeida Ari, Machado Matías Rodrigo, Dans Pablo Daniel, Pantano Sergio

机构信息

Institut Pasteur de Montevideo, Calle Mataojo 2020, Montevideo, Codigo Postal 11400, Uruguay.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2012 Aug;86(2 Pt 1):021903. doi: 10.1103/PhysRevE.86.021903. Epub 2012 Aug 3.

DOI:10.1103/PhysRevE.86.021903

PMID:23005781

Abstract

Bending of the seemingly stiff DNA double helix is a fundamental physical process for any living organism. Specialized proteins recognize DNA inducing and stabilizing sharp curvatures of the double helix. However, experimental evidence suggests a high protein-independent flexibility of DNA. On the basis of coarse-grained simulations, we propose that DNA experiences thermally induced kinks associated with the spontaneous formation of internal bubbles. Comparison of the protein-induced DNA curvature calculated from the Protein Data Bank with that sampled by our simulations suggests that thermally induced distortions can account for ~80% of the DNA curvature present in experimentally solved structures.

摘要

看似僵硬的DNA双螺旋的弯曲是任何生物体的一个基本物理过程。专门的蛋白质识别DNA，诱导并稳定双螺旋的急剧弯曲。然而，实验证据表明DNA具有高度的不依赖蛋白质的灵活性。基于粗粒度模拟，我们提出DNA经历与内部气泡自发形成相关的热诱导扭结。从蛋白质数据库计算出的蛋白质诱导的DNA曲率与我们模拟采样的曲率的比较表明，热诱导畸变可以解释实验解析结构中约80%的DNA曲率。

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呼吸、起泡与弯曲：多微秒模拟下的DNA灵活性

Breathing, bubbling, and bending: DNA flexibility from multimicrosecond simulations.

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