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膜蛋白构成了对称的病毒。

Membrane proteins organize a symmetrical virus.

作者信息

Forsell K, Xing L, Kozlovska T, Cheng R H, Garoff H

机构信息

Karolinska Institute, Department of Biosciences at Novum, S-141 57 Huddinge, Sweden.

出版信息

EMBO J. 2000 Oct 2;19(19):5081-91. doi: 10.1093/emboj/19.19.5081.

DOI:10.1093/emboj/19.19.5081
PMID:11013211
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC302099/
Abstract

Alphaviruses are enveloped icosahedral viruses that mature by budding at the plasma membrane. According to a prevailing model maturation is driven by binding of membrane protein spikes to a preformed nucleocapsid (NC). The T = 4 geometry of the membrane is thought to be imposed by the NC through one-to-one interactions between spike protomers and capsid proteins (CPs). This model is challenged here by a Semliki Forest virus capsid gene mutant. Its CPs cannot assemble into NCs, or its intermediate structures, due to defective CP-CP interactions. Nevertheless, it can use its horizontal spike-spike interactions on membrane surface and vertical spike-CP interactions to make a particle with correct geometry and protein stoichiometry. Thus, our results highlight the direct role of membrane proteins in organizing the icosahedral conformation of alphaviruses.

摘要

甲病毒是有包膜的二十面体病毒,通过在质膜出芽成熟。根据一个流行的模型,成熟是由膜蛋白刺突与预先形成的核衣壳(NC)结合驱动的。膜的T = 4几何结构被认为是由核衣壳通过刺突原聚体与衣壳蛋白(CPs)之间的一对一相互作用施加的。本文中,一种塞姆利基森林病毒衣壳基因突变体对该模型提出了挑战。由于CP-CP相互作用存在缺陷,其CPs无法组装成NCs或其中间结构。然而,它可以利用其在膜表面的水平刺突-刺突相互作用和垂直刺突-CP相互作用来形成具有正确几何结构和蛋白质化学计量的颗粒。因此,我们的结果突出了膜蛋白在组织甲病毒二十面体构象中的直接作用。

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