Migration Behavior of Rodlike dsDNA under Electric
Field in Homogeneous Polymer Networks
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Abstract
We
investigated the migration behavior of rodlike dsDNA in polymer gels
and polymer solutions. Tetra-PEG gel, which has a homogeneous network
structure, was utilized as a model system, allowing us to systematically
tune the polymer volume fraction and molecular weight of network strand.
Although we examined the applicability of the existing models, all
the models failed to predict the migration behavior. Thus, we proposed
a new model based on the Ogston model, which well explained the experimental
data of polymer solutions and gels. The polymer volume fraction determined
the maximum mobility, while the network strand governed the size sieving
effect. From these results, we conclude that the polymer network with
lower polymer volume fraction and smaller network strand is better
in terms of size separation. The homogeneous polymer network is vital
for understanding of particles’ dynamics in polymer network
and a promising material for high-performance size separation