Cyclic-polymer grafted colloids in spherical confinement: insights for interphase chromosome organization

Abstract: Interphase chromosome structures are known to remain segregated in the micron-sized eukaryotic cell nucleus and occupy a certain fraction of nuclear volume, often without mixing. Using extensive coarse-grained simulations, we model such chromosome structures as colloidal particles whose surfaces are grafted by cyclic polymers. This model system is known as Rosetta. The cyclic polymers, with varying polymerization degrees, mimic the functionality of structural protein complexes, while the rigid core models the … Show more