Ejection dynamics of polymeric chains from viral capsids: Effect of solvent quality

I. Ali; D. Marenduzzo; J. M. Yeomans

doi:10.1529/biophysj.107.111963

Ejection dynamics of polymeric chains from viral capsids: Effect of solvent quality

I. Ali, D. Marenduzzo^*, J. M. Yeomans

^*Corresponding author for this work

Physics

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

38 Citations (Scopus)

Abstract

We present simulations investigating the effects of solvent quality on the dynamics of flexible (RNA-like) and semiflexible (DNA-like) polymers ejecting from spherical viral capsids. We find that the mean ejection time increases and the ejection time distributions are broadened as the solvent quality decreases. Our results thus suggest that DNA ejection may be very efficiently controlled by tuning the salt concentration in the environment, in agreement with recent experimental findings. We also observe random pauses in the ejection. These become extremely long for semiflexible polymers at lower solvent quality, and we interpret this as a signature of a low driving force for ejection. We find that, for most polymers, ejection is an all-or-nothing process at the solvent conditions we investigated: polymers normally completely eject once the process is initiated.

Original language	English
Pages (from-to)	4159-4164
Number of pages	6
Journal	Biophysical Journal
Volume	94
Issue number	11
DOIs	https://doi.org/10.1529/biophysj.107.111963
Publication status	Published - Jun 1 2008

ASJC Scopus subject areas

Biophysics

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abstract = "We present simulations investigating the effects of solvent quality on the dynamics of flexible (RNA-like) and semiflexible (DNA-like) polymers ejecting from spherical viral capsids. We find that the mean ejection time increases and the ejection time distributions are broadened as the solvent quality decreases. Our results thus suggest that DNA ejection may be very efficiently controlled by tuning the salt concentration in the environment, in agreement with recent experimental findings. We also observe random pauses in the ejection. These become extremely long for semiflexible polymers at lower solvent quality, and we interpret this as a signature of a low driving force for ejection. We find that, for most polymers, ejection is an all-or-nothing process at the solvent conditions we investigated: polymers normally completely eject once the process is initiated.",

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note = "Funding Information: J.M.Y. and I.A. acknowledge funding from the Office of Naval Research, USA.",

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AU - Ali, I.

AU - Marenduzzo, D.

AU - Yeomans, J. M.

N1 - Funding Information: J.M.Y. and I.A. acknowledge funding from the Office of Naval Research, USA.

PY - 2008/6/1

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N2 - We present simulations investigating the effects of solvent quality on the dynamics of flexible (RNA-like) and semiflexible (DNA-like) polymers ejecting from spherical viral capsids. We find that the mean ejection time increases and the ejection time distributions are broadened as the solvent quality decreases. Our results thus suggest that DNA ejection may be very efficiently controlled by tuning the salt concentration in the environment, in agreement with recent experimental findings. We also observe random pauses in the ejection. These become extremely long for semiflexible polymers at lower solvent quality, and we interpret this as a signature of a low driving force for ejection. We find that, for most polymers, ejection is an all-or-nothing process at the solvent conditions we investigated: polymers normally completely eject once the process is initiated.

AB - We present simulations investigating the effects of solvent quality on the dynamics of flexible (RNA-like) and semiflexible (DNA-like) polymers ejecting from spherical viral capsids. We find that the mean ejection time increases and the ejection time distributions are broadened as the solvent quality decreases. Our results thus suggest that DNA ejection may be very efficiently controlled by tuning the salt concentration in the environment, in agreement with recent experimental findings. We also observe random pauses in the ejection. These become extremely long for semiflexible polymers at lower solvent quality, and we interpret this as a signature of a low driving force for ejection. We find that, for most polymers, ejection is an all-or-nothing process at the solvent conditions we investigated: polymers normally completely eject once the process is initiated.

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Ejection dynamics of polymeric chains from viral capsids: Effect of solvent quality

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