Differential rates of protein folding and cellular trafficking for the Hendra virus F and G proteins: Implications for F-G complex formation

Shannon D. Whitman; Everett Clinton Smith; Rebecca Ellis Dutch

doi:10.1128/JVI.00414-09

Differential rates of protein folding and cellular trafficking for the Hendra virus F and G proteins: Implications for F-G complex formation

Shannon D. Whitman, Everett Clinton Smith, Rebecca Ellis Dutch

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20 Scopus citations

Abstract

Hendra virus F protein-promoted membrane fusion requires the presence of the viral attachment protein, G. However, events leading to the association of these glycoproteins remain unclear. Results presented here demonstrate that Hendra virus G undergoes slower secretory pathway trafficking than is observed for Hendra virus F. This slowed trafficking is not dependent on the G protein cytoplasmic tail, the presence of the G receptor ephrin B2, or interaction with other viral proteins. Instead, Hendra virus G was found to undergo intrinsically slow oligomerization within the endoplasmic reticulum. These results suggest that the critical F-G interactions occur only after the initial steps of synthesis and cellular transport.

Original language	English
Pages (from-to)	8998-9001
Number of pages	4
Journal	Journal of Virology
Volume	83
Issue number	17
DOIs	https://doi.org/10.1128/JVI.00414-09
State	Published - 2009

Funding

Funders	Funder number
National Institute of Allergy and Infectious Diseases	R01AI051517

ASJC Scopus subject areas

Microbiology
Immunology
Insect Science
Virology

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10.1128/JVI.00414-09

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title = "Differential rates of protein folding and cellular trafficking for the Hendra virus F and G proteins: Implications for F-G complex formation",

abstract = "Hendra virus F protein-promoted membrane fusion requires the presence of the viral attachment protein, G. However, events leading to the association of these glycoproteins remain unclear. Results presented here demonstrate that Hendra virus G undergoes slower secretory pathway trafficking than is observed for Hendra virus F. This slowed trafficking is not dependent on the G protein cytoplasmic tail, the presence of the G receptor ephrin B2, or interaction with other viral proteins. Instead, Hendra virus G was found to undergo intrinsically slow oligomerization within the endoplasmic reticulum. These results suggest that the critical F-G interactions occur only after the initial steps of synthesis and cellular transport.",

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AU - Smith, Everett Clinton

AU - Dutch, Rebecca Ellis

PY - 2009

Y1 - 2009

N2 - Hendra virus F protein-promoted membrane fusion requires the presence of the viral attachment protein, G. However, events leading to the association of these glycoproteins remain unclear. Results presented here demonstrate that Hendra virus G undergoes slower secretory pathway trafficking than is observed for Hendra virus F. This slowed trafficking is not dependent on the G protein cytoplasmic tail, the presence of the G receptor ephrin B2, or interaction with other viral proteins. Instead, Hendra virus G was found to undergo intrinsically slow oligomerization within the endoplasmic reticulum. These results suggest that the critical F-G interactions occur only after the initial steps of synthesis and cellular transport.

AB - Hendra virus F protein-promoted membrane fusion requires the presence of the viral attachment protein, G. However, events leading to the association of these glycoproteins remain unclear. Results presented here demonstrate that Hendra virus G undergoes slower secretory pathway trafficking than is observed for Hendra virus F. This slowed trafficking is not dependent on the G protein cytoplasmic tail, the presence of the G receptor ephrin B2, or interaction with other viral proteins. Instead, Hendra virus G was found to undergo intrinsically slow oligomerization within the endoplasmic reticulum. These results suggest that the critical F-G interactions occur only after the initial steps of synthesis and cellular transport.

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Differential rates of protein folding and cellular trafficking for the Hendra virus F and G proteins: Implications for F-G complex formation

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