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Finsler Geometry Modeling of Phase Separation in Multi-Component Membranes

机译：多组分膜相分离的Finsler几何建模

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摘要

A Finsler geometric surface model is studied as a coarse-grained model for membranes of three components, such as zwitterionic phospholipid (DOPC), lipid (DPPC) and an organic molecule (cholesterol). To understand the phase separation of liquid-ordered (DPPC rich)

L_{o}

and liquid-disordered (DOPC rich)

L_{d}

, we introduce a binary variable

σ (= \pm 1)

into the triangulated surface model. We numerically determine that two circular and stripe domains appear on the surface. The dependence of the morphological change on the area fraction of

L_{o}

is consistent with existing experimental results. This provides us with a clear understanding of the origin of the line tension energy, which has been used to understand these morphological changes in three-component membranes. In addition to these two circular and stripe domains, a raft-like domain and budding domain are also observed, and the several corresponding phase diagrams are obtained.

机译：研究了Finsler几何表面模型，作为三组分膜（如两性离子磷脂（DOPC），脂质（DPPC）和有机分子（胆固醇））的粗粒模型。要了解液体排序（富含DPPC）的相分离

Lo和液体无序（富含DOPC）Ld< / mrow>，我们引入了一个二进制变量σ（=\pm1）进入三角曲面模型。我们用数字确定表面上出现两个圆形和条纹区域。形态变化对Lo与现有实验结果一致。这使我们对线张力能的起源有了清晰的了解，该线张力能已被用于了解三组分膜的这些形态变化。除了这两个圆形和条纹域外，还观察到了筏状域和芽域，并获得了几个相应的相图。

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期刊名称 Polymers
作者
Satoshi Usui; Hiroshi Koibuchi;
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作者单位

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年(卷),期 2016(8),8
年度 2016
页码 284
总页数 18
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
biological membranes multi-component phase separation liquid-ordered liquid-disordered line tension Monte Carlo surface model Finsler geometry;

机译：生物膜;多组分;相分离;液体有序;液体无序;线张力;蒙特卡洛;表面模型;芬斯勒几何;

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专利

1. Finsler Geometry Modeling of Phase Separation in Multi-Component Membranes [J] . Satoshi Usui, Hiroshi Koibuchi Polymers . 2016,第8期

机译：多组分膜相分离的Finsler几何建模
2. Phase Separation and Domain Formation in Multi-Component Membranes: Finsler Geometry Modeling and Monte Carlo Simulations [J] . MATEC Web of Conferences . 2016,第2016期

机译：多组分膜的相分离和畴形成：芬斯勒几何模型和蒙特卡洛模拟
3. Orientation Asymmetric Surface Model for Membranes: Finsler Geometry Modeling [J] . Evgenii Proutorov, Hiroshi Koibuchi Axioms . 2017,第2期

机译：膜的取向非对称表面模型：Finsler几何建模
4. Finsler Geometry Modeling of an Orientation-Asymmetric Surface Model for Membranes [C] . Evgenii Proutorov, Hiroshi Koibuchi International Conference on Mathematical Modeling in Physical Sciences . 2017

机译：薄板几何模拟膜取向 - 不对称表面模型
5. Modeling the equilibrium configuration of a piecewise orthotropic pneumatic envelope and the phase separation problem in a membrane. [D] . Lee, Jieun. 2010

机译：模拟分段正交各向异性气动包络的平衡构型和膜中的相分离问题。
6. Bending of Thin Liquid Crystal Elastomer under Irradiation of Visible Light: Finsler Geometry Modeling [O] . Hiroshi Koibuchi 2018

机译：可见光辐照下薄液晶弹性体的弯曲：Finsler几何建模
7. Finsler Geometry Modeling of Phase Separation in Multi-Component Membranes [O] . Satoshi Usui, Hiroshi Koibuchi 2016

机译：多组分膜相分离的Finsler几何建模
8. Very Low Surface Energy (<11 dyn cm-1) Heterophase Polymeric Materials for Membrane Separations: An Integrated Polymer Chemistry/Engineering Approach and The Influence of Backpulsing on Fouling Properties of Novel Nanofiltration Membranes for Wastewater Remediation [R] . Freeman, B. D. , DeSimone, J. M. 1998

机译：极低表面能（<11 dyn cm-1）用于膜分离的异相高分子材料：综合聚合物化学/工程方法和反吹对新型纳滤膜污垢修复性能的影响

Finsler Geometry Modeling of Phase Separation in Multi-Component Membranes

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