Titel
Melts of nonconcatenated rings in spherical confinement
Autor*in
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Abstract
Motivated by the chromosomes enclosed in a cell nucleus, we study a spherically confined system of a small number of long unknotted and nonconcatenated polymer rings in a melt and systematically compare it with the bulk results. We find that universal scaling exponents of the bulk system also apply in the confined case; however, certain important differences arise. First, due to confinement effects, the static and threading properties of the rings depend on their radial position within the confining sphere. Second, the rings’ dynamics is overall subdiffusive, but anisotropic along the directions parallel and perpendicular to the sphere’s radius. The radial center of mass displacements of the rings are in general much smaller than the angular ones, which is caused by the confinement-induced inhomogeneous radial distribution of the whole rings within the sphere. Finally, we find enhanced contact times between rings as compared to the bulk, which indicates slow and predominantly coordinated pathways of the relaxation of the system.
Stichwort
Physical and Theoretical ChemistryGeneral Physics and Astronomy
Objekt-Typ
Sprache
Englisch [eng]
Persistent identifier
Erschienen in
Titel
The Journal of Chemical Physics
Band
153
Ausgabe
6
ISSN
0021-9606
Erscheinungsdatum
2020
Seitenanfang
064903-1
Seitenende
064903-12
Publication
AIP Publishing
Projekt
Kod / Identifikator
340906
Fördergeber
Projekt
Kod / Identifikator
M 2470-N28
Fördergeber
Erscheinungsdatum
2020
Zugänglichkeit
Rechte
Rechteangabe
© 2020 Author(s)
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