Linear rheology of reversibly cross-linked biopolymer networks

Linear rheology of reversibly cross-linked biopolymer networks

We suggest a simple model for reversible cross-links, binding, and unbinding to/from a network of semiflexible polymers. The resulting frequency dependent response of the network to an applied shear is calculated via Brownian dynamics simulations. It is shown to be rather complex with the time scale...

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Veröffentlicht in:The Journal of chemical physics 2018-08, Vol.149 (8), p.084902-084902
Hauptverfasser: Amuasi, Henry E., Fischer, Andreas, Zippelius, Annette, Heussinger, Claus
Format: Artikel
Sprache:eng
Schlagworte:
Biopolymers
Computer simulation
Crosslinking
Loss modulus
Physics
Rheological properties
Rheology
Storage modulus
Time
Weight
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Zusammenfassung:We suggest a simple model for reversible cross-links, binding, and unbinding to/from a network of semiflexible polymers. The resulting frequency dependent response of the network to an applied shear is calculated via Brownian dynamics simulations. It is shown to be rather complex with the time scale of the linkers competing with the excitations of the network. If the lifetime of the linkers is the longest time scale, as is indeed the case in most biological networks, then a distinct low frequency peak of the loss modulus develops. The storage modulus shows a corresponding decay from its plateau value, which for irreversible cross-linkers extends all the way to the static limit. This additional relaxation mechanism can be controlled by the relative weight of reversible and irreversible linkers.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.5030169