Abstract
Dissolution of many plant viruses is thought to start with swelling of the capsid caused by calcium removal following infection, but no high-resolution structures of swollen capsids exist. Here we have used microsecond all-atom molecular simulations to describe the dynamics of the capsid of satellite tobacco necrosis virus with and without the 92 structural calcium ions. The capsid expanded 2.5% upon removal of the calcium, in good agreement with experimental estimates. The water permeability of the native capsid was similar to that of a phospholipid membrane, but the permeability increased 10-fold after removing the calcium, predominantly between the 2-fold and 3-fold related subunits. The two calcium binding sites close to the icosahedral 3-fold symmetry axis were pivotal in the expansion and capsid-opening process, while the binding site on the 5-fold axis changed little structurally. These findings suggest that the dissociation of the capsid is initiated at the 3-fold axis.
Keywords
CapsidBiophysicsMolecular dynamicsMicrosecondCalciumChemistryCapsomereDissociation (chemistry)CrystallographyVirusBiologyVirologyComputational chemistryPhysics
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Publication Info
- Year
- 2012
- Type
- article
- Volume
- 8
- Issue
- 5
- Pages
- e1002502-e1002502
- Citations
- 82
- Access
- Closed
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Cite This
Daniel S. D. Larsson,
Lars Liljas,
David van der Spoel
(2012).
Virus Capsid Dissolution Studied by Microsecond Molecular Dynamics Simulations.
PLoS Computational Biology
, 8
(5)
, e1002502-e1002502.
https://doi.org/10.1371/journal.pcbi.1002502
Identifiers
- DOI
- 10.1371/journal.pcbi.1002502