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包被小泡形成的数学建模。一种理论几何方法。

Mathematical modelling of the formation of coated vesicles. A theoretical geometrical approach.

作者信息

Lisanti M P, Puszkin S

出版信息

Biochem J. 1985 Sep 1;230(2):411-21. doi: 10.1042/bj2300411.

Abstract

The mechanism by which flat hexagonal lattices of clathrin trimers transform into pentagonal/hexagonal spheres remains a mystery. In light of the geometrical nature of this process we have pursued a mathematical approach to the question. Through the geometrical analysis of flat hexagonal lattices we have discovered three possible forms of transformation to introduce curvature into the centre of the lattice: hub-centre transformation; hub-edge transformation; fringe transformation. Hub-edge and fringe transformations are used first to close the lattice while introducing localized curvature at the edges of the lattice. Hub-centre transformation is used after closure to relax the severely localized curvature generated during closure. This scheme not only maximizes the size of the coated vesicle generated, but also minimizes the number of transformations, thus minimizing the energy expended.

摘要

网格蛋白三聚体的扁平六边形晶格转变为五边形/六边形球体的机制仍是一个谜。鉴于此过程的几何性质,我们采用了数学方法来解决这个问题。通过对扁平六边形晶格的几何分析,我们发现了三种可能的转变形式,以便在晶格中心引入曲率:中心枢纽转变;边缘枢纽转变;边缘转变。边缘枢纽转变和边缘转变首先用于封闭晶格,同时在晶格边缘引入局部曲率。封闭后使用中心枢纽转变来缓解封闭过程中产生的高度局部化的曲率。该方案不仅使生成的被膜小泡尺寸最大化,而且使转变的数量最小化,从而使消耗的能量最小化。

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