Topologically asymmetric ring polymers in spherical confinement exhibit reversed radial localization of small versus large loops depending on whether one or multiple polymers are present, driven by entropy.
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Bead-spring simulations in a cylinder reproduce E. coli chromosome organization and segregation in fast growth by using modified polymer topology to generate organizing entropic forces.
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Entropic organization of topologically modified ring polymers in spherical confinement
Topologically asymmetric ring polymers in spherical confinement exhibit reversed radial localization of small versus large loops depending on whether one or multiple polymers are present, driven by entropy.
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Topology mediated organization of E.coli chromosome in fast growth conditions
Bead-spring simulations in a cylinder reproduce E. coli chromosome organization and segregation in fast growth by using modified polymer topology to generate organizing entropic forces.