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In vivo characterization of RNA virus assembly lines with EM tomography

$230,823R00FY2011RRNIH

Purdue University, West Lafayette IN

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Abstract

Virus assembly occurs in the complex three-dimensional environment of the cell, and new advances in electron microscopy tomography (EMT) now make it possible to construct high-resolution three-dimensional images where the spatial location of components involved in virus assembly can be determined. The simplicity of the Flock House virus (FHV) capsid and the extensive structural, biochemical, and genetic characterization of the virus make it an excellent system for studying in situ virus assembly. The focus of this proposal is to use to EMT to answer key questions about Flock House virus assembly in the cell and then extend these approaches to Influenza virus genome packaging and assembly. Aim 1: Three-dimensional imaging of the Flock House virus factories in situ. Our hypothesis is FHV assembles in viral factories, which are formed from extensively modified mitochondria and are then trafficked on cytoskeleton to viral arrays. The viral factories will be imaged using EMT to understand the virus assembly process around the modified mitochondria and entire infected cells will reconstructed to investigate the extensive morphological changes that occur during the virus lifecycle. Aim 2: EM-tomography analysis of influenza genome packaging. The Influenza virus genome is divided into eight RNA segments, and a long-standing question has been what is the mechanism for packaging all eight segments. Our hypothesis is that each of the eight viral RNAs (vRNA) are specifically packaged, and the removal of one vRNA will produce virus particles containing seven segments instead of eight. Virus particles missing a vRNA will be analyzed with EMT to determine the number of segments and which segments are packaged in each virus particle.

View original record on NIH RePORTER →