剪切流诱导的聚合物球状体解折叠

Shear-flow-induced unfolding of polymeric globules.

作者信息

Alexander-Katz A, Schneider M F, Schneider S W, Wixforth A, Netz R R

机构信息

Physics Department, Technical University Munich, 85748 Garching, Germany.

出版信息

Phys Rev Lett. 2006 Sep 29;97(13):138101. doi: 10.1103/PhysRevLett.97.138101. Epub 2006 Sep 25.

DOI:10.1103/PhysRevLett.97.138101

PMID:17026077

Abstract

The behavior of a single collapsed polymer under shear flow is examined using hydrodynamic simulations and scaling arguments. Below a threshold shear rate gamma[.]{}, the chain remains collapsed and only deforms slightly, while above gamma[.]{} the globule exhibits unfolding/refolding cycles. Hydrodynamics are crucial: In the free draining case, gamma[.]{} scales with the globule radius R as gamma[.]{} approximately R{-1}, while in the presence of hydrodynamic interactions gamma[.]{*} approximately R. Experiments on the globular von Willebrand protein confirm the presence of an unfolding transition at a well-defined critical shear rate.

摘要

利用流体动力学模拟和标度论证研究了单个塌陷聚合物在剪切流作用下的行为。在阈值剪切速率γ以下，链保持塌陷状态，仅发生轻微变形，而在γ以上，球状体呈现展开/再折叠循环。流体动力学至关重要：在自由排水情况下，γ与球状体半径R的标度关系为γ约为R-1，而在存在流体动力学相互作用时，γ*约为R。对球状血管性血友病蛋白的实验证实了在明确的临界剪切速率下存在展开转变。

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剪切流诱导的聚合物球状体解折叠

Shear-flow-induced unfolding of polymeric globules.

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