Semiflexible polymer condensates in poor solvents: toroid versus spherical geometries
Date
2005-03-14
Authors
Miller, I
Keentok, M
Pereira, Gerald George
Williams, David
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American Physical Society
Abstract
Semiflexible polymers, such as DNA, in the presence of a condensing agent often form toroids. This is due to a balance between bending and surface area free energy penalties. Here we show why in experiments all the toroids have been found to have similar physical size. We also introduce a novel morphology, that of the hollow sphere, which is favored for long polymer chains. This offers the possibility of encapsulating material inside a “vesicle” made of semiflexible polymers. We also consider the case of many such polymer chains placed in a poor solvent. We show a transition between two morphologies occur on increasing concentration of polymer chains, from a thickened toroid to a spherical globule.
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Keywords
Keywords: Bending energy; Monomer-monomer interactions; Semiflexible polymers; Toroids; Approximation theory; Blood vessels; DNA; Free energy; Monomers; Solvents; Theorem proving; Polymers
Citation
Physical Review, E, Statistical, Nonlinear and Soft Matter Physics 71.3 (2005): 031802/1-9
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Physical Review E-Statistical, Nonlinear and Soft Matter Physics
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Journal article
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