球形壳中的病毒形态与屈曲转变

Virus shapes and buckling transitions in spherical shells.

作者信息

Lidmar Jack, Mirny Leonid, Nelson David R

机构信息

Department of Physics, Royal Institute of Technology, AlbaNova, SE-106 91 Stockholm, Sweden.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2003 Nov;68(5 Pt 1):051910. doi: 10.1103/PhysRevE.68.051910. Epub 2003 Nov 25.

DOI:10.1103/PhysRevE.68.051910

PMID:14682823

Abstract

We show that the icosahedral packings of protein capsomeres proposed by Caspar and Klug for spherical viruses become unstable to faceting for sufficiently large virus size, in analogy with the buckling instability of disclinations in two-dimensional crystals. Our model, based on the nonlinear physics of thin elastic shells, produces excellent one-parameter fits in real space to the full three-dimensional shape of large spherical viruses. The faceted shape depends only on the dimensionless Foppl-von Kármán number gamma=YR(2)/kappa, where Y is the two-dimensional Young's modulus of the protein shell, kappa is its bending rigidity, and R is the mean virus radius. The shape can be parametrized more quantitatively in terms of a spherical harmonic expansion. We also investigate elastic shell theory for extremely large gamma, 10(3)<gamma<10(8), and find results applicable to icosahedral shapes of large vesicles studied with freeze fracture and electron microscopy.

摘要

我们表明，卡斯帕和克鲁格提出的用于球形病毒的蛋白质衣壳粒二十面体堆积，对于足够大的病毒尺寸会变得不稳定而形成刻面，这类似于二维晶体中位错的屈曲不稳定性。我们基于薄弹性壳的非线性物理学的模型，在实空间中对大型球形病毒的完整三维形状给出了出色的单参数拟合。刻面形状仅取决于无量纲的福普尔 - 冯·卡门数γ = YR² / κ，其中Y是蛋白质壳的二维杨氏模量，κ是其弯曲刚度，R是病毒的平均半径。该形状可以根据球谐展开更定量地进行参数化。我们还研究了γ极大（10³ < γ < 10⁸）时的弹性壳理论，并发现了适用于通过冷冻断裂和电子显微镜研究的大囊泡二十面体形状的结果。

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球形壳中的病毒形态与屈曲转变

Virus shapes and buckling transitions in spherical shells.

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