Cooperative role of the MHR and the CA dimerization helix in the maturation of the functional retrovirus capsid

Parvez M. Lokhandwala; Tam Linh N. Nguyen; J. Bradford Bowzard; Rebecca C. Craven

doi:10.1016/j.virol.2008.03.001

Cooperative role of the MHR and the CA dimerization helix in the maturation of the functional retrovirus capsid

Parvez M. Lokhandwala, Tam Linh N. Nguyen, J. Bradford Bowzard, Rebecca C. Craven

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

The second helix in the C-terminal domain of retroviral capsid (CA) protein functions as the site of dimerization between subunits in capsid assembly and is believed to participate in a unique interface between Gag molecules in immature particles. This study reports isolation of two substitutions in the dimerization helix of Rous sarcoma virus CA protein that have the ability to suppress lethal defects in core maturation imposed by alterations to the major homology region (MHR) motif just upstream. Together with two previously published suppressors, these define an extended region of the dimerization helix that is unlikely to contribute directly to CA-CA contacts but whose assembly-competence may be strongly affected by conformation. The broad-spectrum suppression and temperature-sensitivity exhibited by some mutants argues that they act through modulation of protein conformation. These findings provide important biological evidence in support of a significant conformational change involving the dimerization helix and the MHR during maturation.

Original language	English (US)
Pages (from-to)	191-198
Number of pages	8
Journal	Virology
Volume	376
Issue number	1
DOIs	https://doi.org/10.1016/j.virol.2008.03.001
State	Published - Jun 20 2008
Externally published	Yes

Keywords

Avian leukosis virus
CA protein
Capsid assembly
Capsid maturation
Major homology region
RSV
Retrovirus
Rous sarcoma virus

ASJC Scopus subject areas

Virology

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10.1016/j.virol.2008.03.001

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title = "Cooperative role of the MHR and the CA dimerization helix in the maturation of the functional retrovirus capsid",

abstract = "The second helix in the C-terminal domain of retroviral capsid (CA) protein functions as the site of dimerization between subunits in capsid assembly and is believed to participate in a unique interface between Gag molecules in immature particles. This study reports isolation of two substitutions in the dimerization helix of Rous sarcoma virus CA protein that have the ability to suppress lethal defects in core maturation imposed by alterations to the major homology region (MHR) motif just upstream. Together with two previously published suppressors, these define an extended region of the dimerization helix that is unlikely to contribute directly to CA-CA contacts but whose assembly-competence may be strongly affected by conformation. The broad-spectrum suppression and temperature-sensitivity exhibited by some mutants argues that they act through modulation of protein conformation. These findings provide important biological evidence in support of a significant conformational change involving the dimerization helix and the MHR during maturation.",

keywords = "Avian leukosis virus, CA protein, Capsid assembly, Capsid maturation, Major homology region, RSV, Retrovirus, Rous sarcoma virus",

author = "Lokhandwala, {Parvez M.} and Nguyen, {Tam Linh N.} and Bowzard, {J. Bradford} and Craven, {Rebecca C.}",

note = "Funding Information: We thank Laura Fuhrman, Bo Yeon Choi and Shelley Perschke for assistance in sequencing, cloning and virus growth kinetics, respectively. We are grateful to John Purdy and Dr. John Wills for constructive advice and Drs. Ira Ropson, John Flanagan and Richard Kingston for expertise in structural biology. We also acknowledge the contributions of the research support staff of the Pennsylvania State University, College of Medicine Core facility, specifically Anne Stanley for primer synthesis, Nate Schaeffer and David Stanford for providing technical assistance with fluorescence-assisted cell sorting and Joe Bednarczyk for DNA sequencing. This work was funded by grant CA100322 from the National Institute of Health and a grant from the Pennsylvania Department of Health using Tobacco Settlement Funds.",

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doi = "10.1016/j.virol.2008.03.001",

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AU - Lokhandwala, Parvez M.

AU - Nguyen, Tam Linh N.

AU - Bowzard, J. Bradford

AU - Craven, Rebecca C.

N1 - Funding Information: We thank Laura Fuhrman, Bo Yeon Choi and Shelley Perschke for assistance in sequencing, cloning and virus growth kinetics, respectively. We are grateful to John Purdy and Dr. John Wills for constructive advice and Drs. Ira Ropson, John Flanagan and Richard Kingston for expertise in structural biology. We also acknowledge the contributions of the research support staff of the Pennsylvania State University, College of Medicine Core facility, specifically Anne Stanley for primer synthesis, Nate Schaeffer and David Stanford for providing technical assistance with fluorescence-assisted cell sorting and Joe Bednarczyk for DNA sequencing. This work was funded by grant CA100322 from the National Institute of Health and a grant from the Pennsylvania Department of Health using Tobacco Settlement Funds.

PY - 2008/6/20

Y1 - 2008/6/20

N2 - The second helix in the C-terminal domain of retroviral capsid (CA) protein functions as the site of dimerization between subunits in capsid assembly and is believed to participate in a unique interface between Gag molecules in immature particles. This study reports isolation of two substitutions in the dimerization helix of Rous sarcoma virus CA protein that have the ability to suppress lethal defects in core maturation imposed by alterations to the major homology region (MHR) motif just upstream. Together with two previously published suppressors, these define an extended region of the dimerization helix that is unlikely to contribute directly to CA-CA contacts but whose assembly-competence may be strongly affected by conformation. The broad-spectrum suppression and temperature-sensitivity exhibited by some mutants argues that they act through modulation of protein conformation. These findings provide important biological evidence in support of a significant conformational change involving the dimerization helix and the MHR during maturation.

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KW - CA protein

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KW - Major homology region

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KW - Retrovirus

KW - Rous sarcoma virus

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Cooperative role of the MHR and the CA dimerization helix in the maturation of the functional retrovirus capsid

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