An Analytical Solution to the Kinetics of Breakable Filament Assembly

Knowles, Tuomas P. J.; Waudby, Christopher A.; Devlin, Glyn L.; Cohen, Samuel I. A.; Aguzzi, Adriano; Vendruscolo, Michele; Terentjev, Eugene M.; Welland, Mark E.; Dobson, Christopher M.

doi:10.1126/science.1178250

articleScienceDec 10, 2009Closed access

An Analytical Solution to the Kinetics of Breakable Filament Assembly

TPTuomas P. J. Knowles CAChristopher A. Waudby GLGlyn L. Devlin SISamuel I. A. Cohen AAAdriano Aguzzi

University of Cambridge · University Hospital of Zurich

PubMed

Indexed incrossrefpubmed

Abstract

We present an analytical treatment of a set of coupled kinetic equations that governs the self-assembly of filamentous molecular structures. Application to the case of protein aggregation demonstrates that the kinetics of amyloid growth can often be dominated by secondary rather than by primary nucleation events. Our results further reveal a range of general features of the growth kinetics of fragmenting filamentous structures, including the existence of generic scaling laws that provide mechanistic information in contexts ranging from in vitro amyloid growth to the in vivo development of mammalian prion diseases.

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Authors

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Topics & keywords

Topics

Keywords

Nucleation
Protein filament
Amyloid (mycology)
Kinetics
Scaling
Fragmentation (computing)
Amyloid fibril
Rate equation

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Funding

EA
Engineering and Physical Sciences Research Council
Award: EP/F032773/1