High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid

Bacteriophage capsids constitute icosahedral shells of exceptional stability that protect the viral genome. Many capsids display on their surface decoration proteins whose structure and function remain largely unknown. The decoration protein pb10 of phage T5 binds at the centre of the 120 hexamers f...

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Autores principales: Vernhes, Emeline, Renouard, Madalena, Gilquin, Bernard, Cuniasse, Philippe, Durand, Dominique, England, Patrick, Hoos, Sylviane, Huet, Alexis, Conway, James F., Glukhov, Anatoly, Ksenzenko, Vladimir, Jacquet, Eric, Nhiri, Naïma, Zinn-Justin, Sophie, Boulanger, Pascale
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2017
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5292684/
https://www.ncbi.nlm.nih.gov/pubmed/28165000
http://dx.doi.org/10.1038/srep41662
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author Vernhes, Emeline
Renouard, Madalena
Gilquin, Bernard
Cuniasse, Philippe
Durand, Dominique
England, Patrick
Hoos, Sylviane
Huet, Alexis
Conway, James F.
Glukhov, Anatoly
Ksenzenko, Vladimir
Jacquet, Eric
Nhiri, Naïma
Zinn-Justin, Sophie
Boulanger, Pascale
author_facet Vernhes, Emeline
Renouard, Madalena
Gilquin, Bernard
Cuniasse, Philippe
Durand, Dominique
England, Patrick
Hoos, Sylviane
Huet, Alexis
Conway, James F.
Glukhov, Anatoly
Ksenzenko, Vladimir
Jacquet, Eric
Nhiri, Naïma
Zinn-Justin, Sophie
Boulanger, Pascale
author_sort Vernhes, Emeline
collection PubMed
description Bacteriophage capsids constitute icosahedral shells of exceptional stability that protect the viral genome. Many capsids display on their surface decoration proteins whose structure and function remain largely unknown. The decoration protein pb10 of phage T5 binds at the centre of the 120 hexamers formed by the major capsid protein. Here we determined the 3D structure of pb10 and investigated its capsid-binding properties using NMR, SAXS, cryoEM and SPR. Pb10 consists of an α-helical capsid-binding domain and an Ig-like domain exposed to the solvent. It binds to the T5 capsid with a remarkably high affinity and its binding kinetics is characterized by a very slow dissociation rate. We propose that the conformational exchange events observed in the capsid-binding domain enable rearrangements upon binding that contribute to the quasi-irreversibility of the pb10-capsid interaction. Moreover we show that pb10 binding is a highly cooperative process, which favours immediate rebinding of newly dissociated pb10 to the 120 hexamers of the capsid protein. In extreme conditions, pb10 protects the phage from releasing its genome. We conclude that pb10 may function to reinforce the capsid thus favouring phage survival in harsh environments.
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spelling pubmed-52926842017-02-10 High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid Vernhes, Emeline Renouard, Madalena Gilquin, Bernard Cuniasse, Philippe Durand, Dominique England, Patrick Hoos, Sylviane Huet, Alexis Conway, James F. Glukhov, Anatoly Ksenzenko, Vladimir Jacquet, Eric Nhiri, Naïma Zinn-Justin, Sophie Boulanger, Pascale Sci Rep Article Bacteriophage capsids constitute icosahedral shells of exceptional stability that protect the viral genome. Many capsids display on their surface decoration proteins whose structure and function remain largely unknown. The decoration protein pb10 of phage T5 binds at the centre of the 120 hexamers formed by the major capsid protein. Here we determined the 3D structure of pb10 and investigated its capsid-binding properties using NMR, SAXS, cryoEM and SPR. Pb10 consists of an α-helical capsid-binding domain and an Ig-like domain exposed to the solvent. It binds to the T5 capsid with a remarkably high affinity and its binding kinetics is characterized by a very slow dissociation rate. We propose that the conformational exchange events observed in the capsid-binding domain enable rearrangements upon binding that contribute to the quasi-irreversibility of the pb10-capsid interaction. Moreover we show that pb10 binding is a highly cooperative process, which favours immediate rebinding of newly dissociated pb10 to the 120 hexamers of the capsid protein. In extreme conditions, pb10 protects the phage from releasing its genome. We conclude that pb10 may function to reinforce the capsid thus favouring phage survival in harsh environments. Nature Publishing Group 2017-02-06 /pmc/articles/PMC5292684/ /pubmed/28165000 http://dx.doi.org/10.1038/srep41662 Text en Copyright © 2017, The Author(s) http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Vernhes, Emeline
Renouard, Madalena
Gilquin, Bernard
Cuniasse, Philippe
Durand, Dominique
England, Patrick
Hoos, Sylviane
Huet, Alexis
Conway, James F.
Glukhov, Anatoly
Ksenzenko, Vladimir
Jacquet, Eric
Nhiri, Naïma
Zinn-Justin, Sophie
Boulanger, Pascale
High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid
title High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid
title_full High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid
title_fullStr High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid
title_full_unstemmed High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid
title_short High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid
title_sort high affinity anchoring of the decoration protein pb10 onto the bacteriophage t5 capsid
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5292684/
https://www.ncbi.nlm.nih.gov/pubmed/28165000
http://dx.doi.org/10.1038/srep41662
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