A Kinetic Study of Ovalbumin Fibril Formation: The Importance of Fragmentation and End-Joining |
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| Authors: | Jason?M.D. Kalapothakis Ryan?J. Morris Juraj Szavits-Nossan Kym Eden Sam Covill Sean Tabor Jay Gillam Perdita?E. Barran Rosalind?J. Allen Cait?E. MacPhee |
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| Affiliation: | 1.School of Physics and Astronomy, University of Edinburgh, Edinburgh, UK;2.School of Chemistry, University of Edinburgh, Edinburgh, UK;3.School of Chemistry, The University of Manchester, Manchester, UK |
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| Abstract: | The ability to control the morphologies of biomolecular aggregates is a central objective in the study of self-assembly processes. The development of predictive models offers the surest route for gaining such control. Under the right conditions, proteins will self-assemble into fibers that may rearrange themselves even further to form diverse structures, including the formation of closed loops. In this study, chicken egg white ovalbumin is used as a model for the study of fibril loops. By monitoring the kinetics of self-assembly, we demonstrate that loop formation is a consequence of end-to-end association between protein fibrils. A model of fibril formation kinetics, including end-joining, is developed and solved, showing that end-joining has a distinct effect on the growth of fibrillar mass density (which can be measured experimentally), establishing a link between self-assembly kinetics and the underlying growth mechanism. These results will enable experimentalists to infer fibrillar morphologies from an appropriate analysis of self-assembly kinetic data. |
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