引导膜运输的笼状和包被支架的结构设计。

Structural design of cage and coat scaffolds that direct membrane traffic.

作者信息

Stagg Scott M, LaPointe Paul, Balch William E

机构信息

Department of Cell, The Scripps Research Institute, La Jolla, CA 92037, USA.

出版信息

Curr Opin Struct Biol. 2007 Apr;17(2):221-8. doi: 10.1016/j.sbi.2007.03.010. Epub 2007 Mar 28.

DOI:10.1016/j.sbi.2007.03.010

PMID:17395454

Abstract

Trafficking within the exocytic and endocytic pathways of eukaryotic cells involves the generation of caged transport carriers that mediate communication between compartments through vesicle budding and fusion. Structural studies of vesicle cage structures using X-ray crystallography and cryo-electron microscopy approaches reveal new insight into cargo-dependent coat assembly mechanisms. Clathrin and coat protein complex II (COPII) use conserved primary element alpha-solenoid and WD40 structural motifs found in self-assembling cage scaffolds to generate unique geometries that sort cargo and produce vesicles. These studies emphasize molecular and structural principles that reflect the properties of self-assembling nanomachines to regulate cargo capacity in trafficking pathways.

摘要

真核细胞的胞吐和胞吞途径中的运输涉及笼状运输载体的形成，这些载体通过囊泡出芽和融合介导不同区室之间的通讯。利用X射线晶体学和冷冻电子显微镜方法对囊泡笼状结构进行的结构研究揭示了对货物依赖性衣被组装机制的新见解。网格蛋白和II型被膜小泡蛋白复合物（COPII）利用在自组装笼状支架中发现的保守一级元件α-螺线管和WD40结构基序，生成独特的几何形状以分选货物并产生囊泡。这些研究强调了分子和结构原理，这些原理反映了自组装纳米机器在调节运输途径中货物运输能力方面的特性。

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引导膜运输的笼状和包被支架的结构设计。

Structural design of cage and coat scaffolds that direct membrane traffic.

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