蛛网原纤维自组装的分子动力学和超螺旋结构流变学[j]。

Biofizika Pub Date : 2015-07-01

K V Shaitan, I A Orshanskiy

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引用次数: 0

摘要

本文提出了一种蛛网纳米纤维原纤维形成的动力学模拟方法。结果表明，一束足够长度的平行聚丙氨酸β-链通过自组装排列成稳定的右旋超螺旋结构。通过数值分析研究了超螺旋的流变性能，并在非线性条件下推广了描述超螺旋流变性能的Singer模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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[Molecular Dynamics of Self-assembling and Rheology of Superhelical Structure of Protofiber of Spider Web].

In this study we suggested a dynamics simulation for the formation of protofiber of spider web nanofiber. It was shown that a bundle of parallel polyalanine β-strands of sufficient length is arranged through self-assembly into a stable right-handed super helix. By numerical analysis we investigated the rheological properties and provided in nonlinear regime a generalization of the model of Singer for description of the rheological behaviour of super helix.

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Biofizika

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