在纳米级生物圈中可视化病毒组装。

Visualizing viral assemblies in a nanoscale biosphere.

机构信息

Virginia Tech Carilion Research Institute, Virginia Tech, Roanoke, Virginia 24016, USA.

出版信息

Lab Chip. 2013 Jan 21;13(2):216-9. doi: 10.1039/c2lc41008g. Epub 2012 Dec 3.

PMID:23208001

Abstract

We present a novel microfluidic platform to examine biological assemblies at high-resolution. We have engineered a functionalized chamber that serves as a "nanoscale biosphere" to capture and maintain rotavirus double-layered particles (DLPs) in a liquid environment. The chamber can be inserted into the column of a transmission electron microscope while being completely isolated from the vacuum system. This configuration allowed us to determine the structure of biological complexes at nanometer-resolution within a self-contained vessel. Images of DLPs were used to calculate the first 3D view of macromolecules in solution. We refer to this new fluidic visualization technology as in situ molecular microscopy.

摘要

我们提出了一种新颖的微流控平台，可用于高分辨率地研究生物组装体。我们设计了一个功能化的腔室，作为“纳米级生物圈”，可在液体环境中捕获和维持轮状病毒双层颗粒（DLP）。该腔室可以插入透射电子显微镜的柱体中，同时与真空系统完全隔离。这种配置使我们能够在密闭容器内以纳米分辨率确定生物复合物的结构。使用 DLP 的图像来计算溶液中大分子的第一个 3D 视图。我们将这种新的流体可视化技术称为原位分子显微镜。

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在纳米级生物圈中可视化病毒组装。

Visualizing viral assemblies in a nanoscale biosphere.

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