肝炎病毒衣壳多态稳定性取决于包裹的货物大小。

Hepatitis virus capsid polymorph stability depends on encapsulated cargo size.

机构信息

Department of Chemistry and ‡Department of Molecular and Cellular Biochemistry, Indiana University , Bloomington, Indiana 47405, United States.

出版信息

ACS Nano. 2013 Oct 22;7(10):8447-54. doi: 10.1021/nn4017839. Epub 2013 Sep 30.

DOI:10.1021/nn4017839

PMID:24010404

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5683388/

Abstract

Protein cages providing a controlled environment to encapsulated cargo are a ubiquitous presence in any biological system. Well-known examples are capsids, the regular protein shells of viruses, which protect and deliver the viral genome. Since some virus capsids can be loaded with nongenomic cargoes, they are interesting for a variety of applications ranging from biomedical delivery to energy harvesting. A question of vital importance for such applications is how does capsid stability depend on the size of the cargo? A nanoparticle-templated assembly approach was employed here to determine how different polymorphs of the Hepatitis B virus icosahedral capsid respond to a gradual change in the encapsulated cargo size. It was found that assembly into complete virus-like particles occurs cooperatively around a variety of core diameters, albeit the degree of cooperativity varies. Among these virus-like particles, it was found that those of an outer diameter corresponding to an icosahedral array of 240 proteins (T = 4) are able to accommodate the widest range of cargo sizes.

摘要

蛋白质笼为被包裹的货物提供了一个受控的环境，在任何生物系统中都普遍存在。众所周知的例子是衣壳，即病毒的规则蛋白质外壳，它可以保护和传递病毒基因组。由于一些病毒衣壳可以装载非基因组货物，因此它们在从生物医学输送到能量收集等各种应用中都很有趣。对于这些应用，一个至关重要的问题是衣壳的稳定性如何取决于货物的大小？这里采用了纳米颗粒模板组装方法来确定乙型肝炎病毒二十面体衣壳的不同多晶型如何响应封装货物大小的逐渐变化。结果发现，尽管协同性有所不同，但各种核心直径周围的完整病毒样颗粒的组装都是协同进行的。在这些病毒样颗粒中，发现具有对应于 240 个蛋白质的二十面体排列（T=4）的外径的病毒样颗粒能够容纳最广泛的货物尺寸。

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