无偏聚合物通过狭窄孔道的穿越时间。

Passage times for unbiased polymer translocation through a narrow pore.

作者信息

Wolterink Joanne Klein, Barkema Gerard T, Panja Debabrata

机构信息

Institute for Theoretical Physics, Universiteit Utrecht, Minnaertgebouw, Leuvenlaan 4, Postbus 80.195, 3508 TD Utrecht, The Netherlands.

出版信息

Phys Rev Lett. 2006 May 26;96(20):208301. doi: 10.1103/PhysRevLett.96.208301. Epub 2006 May 25.

DOI:10.1103/PhysRevLett.96.208301

PMID:16803213

Abstract

We study the translocation process of a polymer in the absence of external fields for various pore diameters b and membrane thickness L. The polymer performs Rouse and reptation dynamics. The mean translocation time (tau(t)) that the polymer needs to escape from a cell and the mean dwell time (tau(d)) that the polymer spends in the pore during the translocation process obey scaling relations in terms of the polymer length N, L, and b/R(g), where R(g) is the radius of gyration for the polymer. We explain these relations using simple arguments based on polymer dynamics and the equilibrium properties of polymers.

摘要

我们研究了在不存在外部场的情况下，聚合物在各种孔径(b)和膜厚度(L)条件下的转位过程。聚合物表现出Rouse动力学和蛇行动力学。聚合物从细胞中逸出所需的平均转位时间((\tau(t)))以及在转位过程中聚合物在孔中停留的平均时间((\tau(d)))，根据聚合物长度(N)、(L)和(b/R(g))遵循标度关系，其中(R(g))是聚合物的回转半径。我们基于聚合物动力学和聚合物的平衡性质，用简单的论据解释了这些关系。

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无偏聚合物通过狭窄孔道的穿越时间。

Passage times for unbiased polymer translocation through a narrow pore.

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