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Polymer translocation through nanopore assisted by an environment of active rods

We use a combination of computer simulations and iso-flux tension propagation (IFTP) theory to investigate translocation dynamics of a flexible linear polymer through a nanopore into an environment composed of repulsive active rods in 2D. We demonstrate that the rod activity induces a crowding effect on the polymer, leading to a time-dependent net force that facilitates translocation into the active environment. Incorporating this force into the IFTP theory for pore-driven translocation allows us to characterise translocation dynamics in detail and derive a scaling form for the average translocation time as $\tildeτ \sim \tilde{L}_{\textrm{r}}^ν / \tilde{F}_{\textrm{SP}} $, where $\tilde{L}_{\textrm{r}}$ and $\tilde{F}_{\textrm{SP}}$ are the rod length and self-propelling force acting on the rods, respectively, and $ν$ is the Flory exponent.

preprint2020arXivOpen access
Hamidreza KhalilianJalal SarabadaniTapio Ala-Nissila
cond-mat.soft
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Hamidreza KhalilianJalal SarabadaniTapio Ala-Nissila

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