Visualization of Assembly Intermediates and Budding Vacuoles of Singapore Grouper Iridovirus in Grouper Embryonic Cells

Visualization of Assembly Intermediates and Budding Vacuoles of Singapore Grouper Iridovirus in Grouper Embryonic Cells

Iridovirid infection is associated with the catastrophic loss in aquaculture industry and the population decline of wild amphibians and reptiles, but none of the iridovirid life cycles have been well explored. Here, we report the detailed visualization of the life cycle of Singapore grouper iridovir...

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Bibliographic Details
Published in:Scientific reports Vol. 6; no. 1; p. 18696
Main Authors: Liu, Yang, Tran, Bich Ngoc, Wang, Fan, Ounjai, Puey, Wu, Jinlu, Hew, Choy L.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 04-01-2016
Nature Publishing Group
Subjects:
631/326/596
631/326/596/2148
Amphibians
Animals
Aquaculture
Capsid - metabolism
Capsid - ultrastructure
Capsid protein
Capsid Proteins - genetics
Capsid Proteins - metabolism
Capsids
Cells, Cultured
Cryoelectron Microscopy
Cytoplasm
Deoxyribonucleic acid
DNA
Electron microscopy
Encapsidation
Fishes
Gene Knockdown Techniques
Genes, Viral
Humanities and Social Sciences
Immune response
Infections
Intermediates
Iridovirus - physiology
Iridovirus - ultrastructure
Life cycles
multidisciplinary
Plasma
Population decline
Proteins
Reptiles
Science
Tomography
Transmission electron microscopy
Vacuoles
Virion
Virus Assembly
Virus Release
Virus Replication
Viruses
Visualization
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Summary:Iridovirid infection is associated with the catastrophic loss in aquaculture industry and the population decline of wild amphibians and reptiles, but none of the iridovirid life cycles have been well explored. Here, we report the detailed visualization of the life cycle of Singapore grouper iridovirus (SGIV) in grouper cells by cryo-electron microscopy (cryoEM) and tomography (ET). EM imaging revealed that SGIV viral particles have an outer capsid layer and the interaction of this layer with cellular plasma membrane initiates viral entry. Subsequent viral replication leads to formation of a viral assembly site (VAS), where membranous structures emerge as precursors to recruit capsid proteins to form an intermediate, double-shell, crescent-shaped structure, which curves to form icosahedral capsids. Knockdown of the major capsid protein eliminates the formation of viral capsids. As capsid formation progresses, electron-dense materials known to be involved in DNA encapsidation accumulate within the capsid until it is fully occupied. Besides the well-known budding mechanism through the cell periphery, we demonstrate a novel budding process in which viral particles bud into a tubular-like structure within vacuoles. This budding process may denote a new strategy used by SGIV to disseminate viral particles into neighbor cells while evading host immune response.
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These authors jointly supervised this work.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep18696