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Ebola and Marburg virus matrix layers are locally ordered assemblies of VP40 dimers

William Wan, Mairi Clarke, Michael Norris, Larissa Kolesnikova, Alexander Koehler, Zachary A. Bornholdt, Stephan Becker, Erica Ollmann Saphire, John A. G. Briggs

2020eLife60 citationsDOIOpen Access PDF

Abstract

Filoviruses such as Ebola and Marburg virus bud from the host membrane as enveloped virions. This process is achieved by the matrix protein VP40. When expressed alone, VP40 induces budding of filamentous virus-like particles, suggesting that localization to the plasma membrane, oligomerization into a matrix layer, and generation of membrane curvature are intrinsic properties of VP40. There has been no direct information on the structure of VP40 matrix layers within viruses or virus-like particles. We present structures of Ebola and Marburg VP40 matrix layers in intact virus-like particles, and within intact Marburg viruses. VP40 dimers assemble extended chains via C-terminal domain interactions. These chains stack to form 2D matrix lattices below the membrane surface. These lattices form a patchwork assembly across the membrane and suggesting that assembly may begin at multiple points. Our observations define the structure and arrangement of the matrix protein layer that mediates formation of filovirus particles.

Topics & Concepts

VP40Viral matrix proteinEbola virusMarburg virusEbolavirusFiloviridaeCell biologyMembrane curvatureMatrix (chemical analysis)VirusVirologyBiologyBiophysicsMembraneChemistryLipid bilayerBiochemistryParamyxoviridaeViral diseaseChromatographyViral Infections and Outbreaks ResearchBacillus and Francisella bacterial researchViral gastroenteritis research and epidemiology
Ebola and Marburg virus matrix layers are locally ordered assemblies of VP40 dimers | Litcius