引力场影响下微管空间和取向自组织模型。

Models of spatial and orientational self-organization of microtubules under the influence of gravitational fields.

作者信息

Portet S, Tuszynski J A, Dixon J M, Sataric M V

机构信息

Department of Physics, University of Alberta, Edmonton, Alberta, Canada T6G 2J1.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2003 Aug;68(2 Pt 1):021903. doi: 10.1103/PhysRevE.68.021903. Epub 2003 Aug 11.

DOI:10.1103/PhysRevE.68.021903

PMID:14525002

Abstract

Tabony and co-workers [C. Papaseit, N. Pochon, and J. Tabony, Proc. Natl. Acad. Sci. U.S.A. 97, 8364 (2000)] showed that the self-organization of microtubules from purified tubulin solutions is sensitive to gravitational conditions. In this paper, we propose two models of spatial and orientational self-organization of microtubules in a gravitational field. First, the spatial model is based on the dominant chemical kinetics. The pattern formation of microtubule concentration is obtained (1) in terms of a moving kink in the limit when the disassembly rate is negligible, and (2) for the case of no free tubulin and only assembled microtubules present. Second, the orientational pattern of striped microtubule domains is consistent with predictions from a phenomenological Landau-Ginzburg free energy expansion in terms of an orientational order parameter.

摘要

塔博尼及其同事[C. 帕帕塞伊特、N. 波雄和J. 塔博尼，《美国国家科学院院刊》97, 8364 (2000)]表明，从纯化的微管蛋白溶液中自组装微管对重力条件敏感。在本文中，我们提出了重力场中微管空间和取向自组装的两种模型。首先，空间模型基于主要的化学动力学。微管浓度的图案形成是这样得到的：(1) 在拆卸速率可忽略不计的极限情况下，根据移动扭结得到；(2) 对于不存在游离微管蛋白且仅存在组装好的微管的情况。其次，条纹状微管区域的取向图案与根据取向序参量进行的唯象朗道 - 金兹堡自由能展开的预测一致。

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引力场影响下微管空间和取向自组织模型。

Models of spatial and orientational self-organization of microtubules under the influence of gravitational fields.

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