近球形生物膜上膜介导点粒子相互作用的公式

IF 1.2 4区数学 Q1 MATHEMATICS

Interfaces and Free Boundaries Pub Date : 2020-12-08 DOI:10.4171/IFB/464

C. M. Elliott, P. J. Herbert

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引用次数: 1

摘要

我们考虑一个带有附着蛋白的生物膜模型。膜由近球形连续表面表示，附着的蛋白质被描述为在有限数量的点上附着在膜上的离散刚性结构。所得的表面使二次弹性能(通过Canham-Helfrich能量的扰动获得)在受蛋白质附着所施加的点约束下最小化。我们计算能量对蛋白质构型的导数。通过平移和在垂直于参考点的轴上旋转，蛋白质被限制在切向移动。以前的研究通常局限于几乎扁平的膜和圆形的内含物。推导了该导数的一种数值表示形式，并在一些数值实验中加以应用。

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A formula for membrane mediated point particle interactions on near spherical biomembranes

We consider a model of a biomembrane with attached proteins. The membrane is represented by a near spherical continuous surface and attached proteins are described as discrete rigid structures which attach to the membrane at a finite number of points. The resulting surface minimises a quadratic elastic energy (obtained by a perturbation of the Canham-Helfrich energy) subject to the point constraints which are imposed by the attachment of the proteins. We calculate the derivative of the energy with respect to protein configurations. The proteins are constrained to move tangentially by translation and by rotation in the axis normal to a reference point. Previous studies have typically restricted themselves to a nearly flat membrane and circular inclusions. A numerically accessible representation of this derivative is derived and employed in some numerical experiments.

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来源期刊

Interfaces and Free Boundaries 数学-数学

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Interfaces and Free Boundaries is dedicated to the mathematical modelling, analysis and computation of interfaces and free boundary problems in all areas where such phenomena are pertinent. The journal aims to be a forum where mathematical analysis, partial differential equations, modelling, scientific computing and the various applications which involve mathematical modelling meet. Submissions should, ideally, emphasize the combination of theory and application.