Title of article
Shepherd model for knot-limited polymer ejection from a capsid
Author/Authors
Antal، نويسنده , , Tibor and Krapivsky، نويسنده , , P.L. and Redner، نويسنده , , S.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
6
From page
488
To page
493
Abstract
We construct a tractable model to describe the rate at which a knotted polymer is ejected from a spherical capsid via a small pore. Knots are too large to fit through the pore and must reptate to the end of the polymer for ejection to occur. The reptation of knots is described by symmetric exclusion on the line, with the internal capsid pressure represented by an additional biased particle that drives knots to the end of the chain. We compute the exact ejection speed for a finite number of knots L and find that it scales as 1 / L . We establish a mapping to the solvable zero-range process. We also construct a continuum theory for many knots that matches the exact discrete theory for large L.
Keywords
Virus ejection , Exclusion process , Stochastic effects
Journal title
Journal of Theoretical Biology
Serial Year
2009
Journal title
Journal of Theoretical Biology
Record number
1539931
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