Chemical kinetics for bridging molecular mechanisms and macroscopic measurements of amyloid fibril formation
Michaels TCT, Šarić A, Habchi J, Chia S, Meisl G, Vendruscolo M, Dobson CM, Knowles TPJ. 2018. Chemical kinetics for bridging molecular mechanisms and macroscopic measurements of amyloid fibril formation. Annual Review of Physical Chemistry. 69(1), 273–298.
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Author
Michaels, Thomas C.T.;
Šarić, AnđelaISTA 
;
Habchi, Johnny;
Chia, Sean;
Meisl, Georg;
Vendruscolo, Michele;
Dobson, Christopher M.;
Knowles, Tuomas P.J.
;
Habchi, Johnny;
Chia, Sean;
Meisl, Georg;
Vendruscolo, Michele;
Dobson, Christopher M.;
Knowles, Tuomas P.J.Abstract
Understanding how normally soluble peptides and proteins aggregate to form amyloid fibrils is central to many areas of modern biomolecular science, ranging from the development of functional biomaterials to the design of rational therapeutic strategies against increasingly prevalent medical conditions such as Alzheimer's and Parkinson's diseases. As such, there is a great need to develop models to mechanistically describe how amyloid fibrils are formed from precursor peptides and proteins. Here we review and discuss how ideas and concepts from chemical reaction kinetics can help to achieve this objective. In particular, we show how a combination of theory, experiments, and computer simulations, based on chemical kinetics, provides a general formalism for uncovering, at the molecular level, the mechanistic steps that underlie the phenomenon of amyloid fibril formation.
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Publishing Year
Date Published
2018-02-28
Journal Title
Annual Review of Physical Chemistry
Acknowledgement
We acknowledge support from the Swiss National Science Foundation (T.C.T.M.); Peterhouse,
Cambridge (T.C.T.M.); the Royal Society (A.S.); the Academy of Medical Sciences (A.S.); the
Wellcome Trust (A.S., M.V., C.M.D., T.P.J.K.); the Cambridge Centre for Misfolding Diseases
(M.V., C.M.D., T.P.J.K.); the Biotechnology and Biological Sciences Research Council (C.M.D.,
T.P.J.K.); and the Frances and Augustus Newman Foundation (T.P.J.K.). The research leading
to these results has received funding from the European Research Council (ERC) under the
European Union’s Seventh Framework Programme (FP7/2007-2013) through the ERC grant
PhysProt (337969).
Volume
69
Issue
1
Page
273-298
ISSN
eISSN
IST-REx-ID
Cite this
Michaels TCT, Šarić A, Habchi J, et al. Chemical kinetics for bridging molecular mechanisms and macroscopic measurements of amyloid fibril formation. Annual Review of Physical Chemistry. 2018;69(1):273-298. doi:10.1146/annurev-physchem-050317-021322
Michaels, T. C. T., Šarić, A., Habchi, J., Chia, S., Meisl, G., Vendruscolo, M., … Knowles, T. P. J. (2018). Chemical kinetics for bridging molecular mechanisms and macroscopic measurements of amyloid fibril formation. Annual Review of Physical Chemistry. Annual Reviews. https://doi.org/10.1146/annurev-physchem-050317-021322
Michaels, Thomas C.T., Anđela Šarić, Johnny Habchi, Sean Chia, Georg Meisl, Michele Vendruscolo, Christopher M. Dobson, and Tuomas P.J. Knowles. “Chemical Kinetics for Bridging Molecular Mechanisms and Macroscopic Measurements of Amyloid Fibril Formation.” Annual Review of Physical Chemistry. Annual Reviews, 2018. https://doi.org/10.1146/annurev-physchem-050317-021322.
T. C. T. Michaels et al., “Chemical kinetics for bridging molecular mechanisms and macroscopic measurements of amyloid fibril formation,” Annual Review of Physical Chemistry, vol. 69, no. 1. Annual Reviews, pp. 273–298, 2018.
Michaels TCT, Šarić A, Habchi J, Chia S, Meisl G, Vendruscolo M, Dobson CM, Knowles TPJ. 2018. Chemical kinetics for bridging molecular mechanisms and macroscopic measurements of amyloid fibril formation. Annual Review of Physical Chemistry. 69(1), 273–298.
Michaels, Thomas C. T., et al. “Chemical Kinetics for Bridging Molecular Mechanisms and Macroscopic Measurements of Amyloid Fibril Formation.” Annual Review of Physical Chemistry, vol. 69, no. 1, Annual Reviews, 2018, pp. 273–98, doi:10.1146/annurev-physchem-050317-021322.
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