囊泡形状的振幅层次结构。

Amplitude hierarchy of vesicle shapes.

作者信息

Xu L, Döbereiner H G

机构信息

Max-Planck-Institut für Kolloid- und Grenzflächenforschung, Kantstraße 55, 14513 Teltow-Seehof, Germany.

出版信息

J Biol Phys. 1999 Mar;25(1):35-9. doi: 10.1023/A:1005190615390.

DOI:10.1023/A:1005190615390

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3456069/

Abstract

Shapes of fluid lipid vesicles are governed by the bending elasticity of their membrane as described by the Area-Difference-Elasticity (ADE) model. These shapes can be quantified using a suitable modal representation of the vesicle contour. Prolate vesicles are characterized by a hierarchy in their shape amplitudes. Experimentally, we find an ordering of the amplitudes with mode number both in large (100 nm) as well as giant (10 μm) unilamellar vesicles. Mean shapes are found only within the small energetically stable region of the prolate phase. Our study demonstrates that bending energy concepts may be quantitatively used on cellular length scales ranging from the size of organelles to the plasma membrane.

摘要

流体脂质囊泡的形状由其膜的弯曲弹性决定，这可由面积差弹性（ADE）模型来描述。这些形状可以通过囊泡轮廓的合适模态表示进行量化。长形囊泡的特征在于其形状振幅的层次结构。在实验中，我们发现无论是在大的（100纳米）还是巨型的（10微米）单层囊泡中，振幅都随模数有序排列。平均形状仅在长形相的小能量稳定区域内被发现。我们的研究表明，弯曲能量概念可在从细胞器大小到质膜的细胞长度尺度上进行定量应用。

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