Complex mechanisms for the packaging of the UL16 tegument protein into herpes simplex virus

David G. Meckes; Jacob A. Marsh; John W. Wills

doi:10.1016/j.virol.2009.12.004

Complex mechanisms for the packaging of the UL16 tegument protein into herpes simplex virus

David G. Meckes, Jacob A. Marsh, John W. Wills

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39 Scopus citations

Abstract

The conserved UL16 tegument protein of herpes simplex virus exhibits dynamic capsid-binding properties with a release mechanism that is triggered during initial virus attachment events. In an effort to understand the capsid association and subsequent release of UL16, we sought to define the mechanism by which this protein is packaged into virions. The data presented here support a model for the addition of some UL16 to capsids prior to their arrival at the TGN. UL16 was found on capsids isolated from cells infected with viruses lacking UL36, UL37 or gE/gD, which are defective for budding and accumulate non-enveloped capsids in the cytoplasm. Additionally, membrane-flotation experiments showed that UL16 co-purified with cytoplasmic capsids that are not associated with membranes. Moreover, the amount of UL16 packaged into extracellular particles was severely reduced in the absence of two conserved binding partners, UL21 or UL11.

Original language	English (US)
Pages (from-to)	208-213
Number of pages	6
Journal	Virology
Volume	398
Issue number	2
DOIs	https://doi.org/10.1016/j.virol.2009.12.004
State	Published - Mar 15 2010

All Science Journal Classification (ASJC) codes

Virology

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10.1016/j.virol.2009.12.004

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title = "Complex mechanisms for the packaging of the UL16 tegument protein into herpes simplex virus",

abstract = "The conserved UL16 tegument protein of herpes simplex virus exhibits dynamic capsid-binding properties with a release mechanism that is triggered during initial virus attachment events. In an effort to understand the capsid association and subsequent release of UL16, we sought to define the mechanism by which this protein is packaged into virions. The data presented here support a model for the addition of some UL16 to capsids prior to their arrival at the TGN. UL16 was found on capsids isolated from cells infected with viruses lacking UL36, UL37 or gE/gD, which are defective for budding and accumulate non-enveloped capsids in the cytoplasm. Additionally, membrane-flotation experiments showed that UL16 co-purified with cytoplasmic capsids that are not associated with membranes. Moreover, the amount of UL16 packaged into extracellular particles was severely reduced in the absence of two conserved binding partners, UL21 or UL11.",

author = "Meckes, {David G.} and Marsh, {Jacob A.} and Wills, {John W.}",

note = "Funding Information: Special thanks to Todd Wisner (David Johnson's Laboratory) and Elizabeth Wills (Joel Baines' Laboratory) for providing technical help on growing mutant viruses used in these studies. Additional thanks to Nicholas Baird, Jun Han, Michael Murphy and Michelle Bucks for helpful discussions and to Pooja Chadha for critical review of this manuscript. This work was supported by an NIH grant to J.W.W. (AI071286). D.G.M. was supported by a training grant from the NIH (CA60395).",

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doi = "10.1016/j.virol.2009.12.004",

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N2 - The conserved UL16 tegument protein of herpes simplex virus exhibits dynamic capsid-binding properties with a release mechanism that is triggered during initial virus attachment events. In an effort to understand the capsid association and subsequent release of UL16, we sought to define the mechanism by which this protein is packaged into virions. The data presented here support a model for the addition of some UL16 to capsids prior to their arrival at the TGN. UL16 was found on capsids isolated from cells infected with viruses lacking UL36, UL37 or gE/gD, which are defective for budding and accumulate non-enveloped capsids in the cytoplasm. Additionally, membrane-flotation experiments showed that UL16 co-purified with cytoplasmic capsids that are not associated with membranes. Moreover, the amount of UL16 packaged into extracellular particles was severely reduced in the absence of two conserved binding partners, UL21 or UL11.

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Complex mechanisms for the packaging of the UL16 tegument protein into herpes simplex virus

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