Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.

Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.

The 3-dimensional structure of the nucleocapsid (NC) of bacteriophage φ6 is described utilizing component tree analysis, a topological and geometric image descriptor. The component trees are derived from density maps of cryo-electron microscopy single particle reconstructions. Analysis determines po...

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Main Authors: Lucas M Oliveira, Ze Ye, Al Katz, Alexandra Alimova, Hui Wei, Gabor T Herman, Paul Gottlieb
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5754084?pdf=render
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spelling doaj-41baf0848d8e47a285df259d9821a1172020-11-25T00:02:10ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01131e018885810.1371/journal.pone.0188858Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.Lucas M OliveiraZe YeAl KatzAlexandra AlimovaHui WeiGabor T HermanPaul GottliebThe 3-dimensional structure of the nucleocapsid (NC) of bacteriophage φ6 is described utilizing component tree analysis, a topological and geometric image descriptor. The component trees are derived from density maps of cryo-electron microscopy single particle reconstructions. Analysis determines position and occupancy of structure elements responsible for RNA packaging and transcription. Occupancy of the hexameric nucleotide triphosphorylase (P4) and RNA polymerase (P2) are found to be essentially complete in the NC. The P8 protein lattice likely fixes P4 and P2 in place during maturation. We propose that the viral procapsid (PC) is a dynamic structural intermediate where the P4 and P2 can attach and detach until held in place in mature NCs. During packaging, the PC expands to accommodate the RNA, and P2 translates from its original site near the inner 3-fold axis (20 sites) to the inner 5-fold axis (12 sites) with excess P2 positioned inside the central region of the NC.http://europepmc.org/articles/PMC5754084?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Lucas M Oliveira
Ze Ye
Al Katz
Alexandra Alimova
Hui Wei
Gabor T Herman
Paul Gottlieb
spellingShingle Lucas M Oliveira
Ze Ye
Al Katz
Alexandra Alimova
Hui Wei
Gabor T Herman
Paul Gottlieb
Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.
PLoS ONE
author_facet Lucas M Oliveira
Ze Ye
Al Katz
Alexandra Alimova
Hui Wei
Gabor T Herman
Paul Gottlieb
author_sort Lucas M Oliveira
title Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.
title_short Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.
title_full Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.
title_fullStr Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.
title_full_unstemmed Component tree analysis of cystovirus φ6 nucleocapsid Cryo-EM single particle reconstructions.
title_sort component tree analysis of cystovirus φ6 nucleocapsid cryo-em single particle reconstructions.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2018-01-01
description The 3-dimensional structure of the nucleocapsid (NC) of bacteriophage φ6 is described utilizing component tree analysis, a topological and geometric image descriptor. The component trees are derived from density maps of cryo-electron microscopy single particle reconstructions. Analysis determines position and occupancy of structure elements responsible for RNA packaging and transcription. Occupancy of the hexameric nucleotide triphosphorylase (P4) and RNA polymerase (P2) are found to be essentially complete in the NC. The P8 protein lattice likely fixes P4 and P2 in place during maturation. We propose that the viral procapsid (PC) is a dynamic structural intermediate where the P4 and P2 can attach and detach until held in place in mature NCs. During packaging, the PC expands to accommodate the RNA, and P2 translates from its original site near the inner 3-fold axis (20 sites) to the inner 5-fold axis (12 sites) with excess P2 positioned inside the central region of the NC.
url http://europepmc.org/articles/PMC5754084?pdf=render
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AT gabortherman componenttreeanalysisofcystovirusph6nucleocapsidcryoemsingleparticlereconstructions
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