Role of Intermolecular Forces in Defining Material Properties of Protein Nanofibrils
Tuomas P. J. Knowles(University of Cambridge), Anthony W. P. Fitzpatrick(University of Cambridge), Sarah Meehan(University of Cambridge), Helen R. Mott(University of Cambridge), Michele Vendruscolo(University of Cambridge), Christopher M. Dobson(University of Cambridge), Mark E. Welland(University of Cambridge)
Cited by 773Open Access
Abstract
Protein molecules have the ability to form a rich variety of natural and artificial structures and materials. We show that amyloid fibrils, ordered supramolecular nanostructures that are self-assembled from a wide range of polypeptide molecules, have rigidities varying over four orders of magnitude, and constitute a class of high-performance biomaterials. We elucidate the molecular origin of fibril material properties and show that the major contribution to their rigidity stems from a generic interbackbone hydrogen-bonding network that is modulated by variable side-chain interactions.
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