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Kinetics of fragmentation and dissociation of two-strand protein filaments: Coarse-grained simulations and experiments.

Accepted version
Peer-reviewed

Type

Article

Change log

Authors

Zaccone, A 
Terentjev, I 
Herling, TW 
Knowles, TPJ 
Aleksandrova, A 

Abstract

While a significant body of investigations have been focused on the process of protein self-assembly, much less is understood about the reverse process of a filament breaking due to thermal motion into smaller fragments, or depolymerization of subunits from the filament ends. Indirect evidence for actin and amyloid filament fragmentation has been reported, although the phenomenon has never been directly observed either experimentally or in simulations. Here we report the direct observation of filament depolymerization and breakup in a minimal, calibrated model of coarse-grained molecular simulation. We quantify the orders of magnitude by which the depolymerization rate from the filament ends koff is larger than fragmentation rate k- and establish the law koff/k- = exp[(ε‖ - ε⊥)/kBT] = exp[0.5ε/kBT], which accounts for the topology and energy of bonds holding the filament together. This mechanism and the order-of-magnitude predictions are well supported by direct experimental measurements of depolymerization of insulin amyloid filaments.

Description

Keywords

Actins, Amyloid, Kinetics, Models, Molecular, Protein Multimerization, Protein Structure, Secondary, Temperature

Journal Title

J Chem Phys

Conference Name

Journal ISSN

0021-9606
1089-7690

Volume Title

145

Publisher

AIP Publishing
Sponsorship
This research was supported by the ERC, EPSRC, BBSRC, and the Newman Foundation.