蛋白质介导的DNA环：蛋白质桥大小和扭结的影响。

Protein-mediated DNA loops: effects of protein bridge size and kinks.

作者信息

Douarche Nicolas, Cocco Simona

机构信息

CNRS-Laboratoire de Physique Statistique de l'ENS, 24 rue Lhomond, 75005 Paris, France.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2005 Dec;72(6 Pt 1):061902. doi: 10.1103/PhysRevE.72.061902. Epub 2005 Dec 2.

DOI:10.1103/PhysRevE.72.061902

PMID:16485969

Abstract

This paper focuses on the probability that a portion of DNA closes on itself through thermal fluctuations. We investigate the dependence of this probability upon the size of a protein bridge and/or the presence of a kink at half DNA length. The DNA is modeled by the wormlike chain model, and the probability of loop formation is calculated in two ways: exact numerical evaluation of the constrained path integral and the extension of the Shimada and Yamakawa saddle point approximation. For example, we find that the looping free energy of a 100-base-pairs DNA decreases from 24 kBT to 13 kBT when the loop is closed by a protein of r=10 length. It further decreases 5 kBT to when the loop has a kink of 120 degrees at half-length.

摘要

本文聚焦于DNA的一部分通过热涨落自身闭合的概率。我们研究了该概率对蛋白质桥大小和/或DNA长度一半处存在扭结的依赖性。DNA由蠕虫状链模型建模，环形成的概率通过两种方式计算：受限路径积分的精确数值评估以及岛田和山川鞍点近似的扩展。例如，我们发现当由长度r = 10的蛋白质闭合环时，100个碱基对的DNA的环化自由能从24kBT降至13kBT。当环在半长处有120度的扭结时，它进一步降低5kBT。

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蛋白质介导的DNA环：蛋白质桥大小和扭结的影响。

Protein-mediated DNA loops: effects of protein bridge size and kinks.

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