The expanding amyloid family: Structure, stability, function, and pathogenesis | Zendy

M.R. Sawaya | Zendy; Michael P. Hughes | Zendy; José A. Rodríguez | Zendy; Roland Riek | Zendy; David Eisenberg | Zendy

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The expanding amyloid family: Structure, stability, function, and pathogenesis

Author(s) -

M.R. Sawaya,

Michael P. Hughes,

José A. Rodríguez,

Roland Riek,

David Eisenberg

Publication year - 2021

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2021.08.013

Subject(s) - biology , pathogenesis , amyloid (mycology) , function (biology) , computational biology , genetics , immunology , botany

The hidden world of amyloid biology has suddenly snapped into atomic-level focus, revealing over 80 amyloid protein fibrils, both pathogenic and functional. Unlike globular proteins, amyloid proteins flatten and stack into unbranched fibrils. Stranger still, a single protein sequence can adopt wildly different two-dimensional conformations, yielding distinct fibril polymorphs. Thus, an amyloid protein may define distinct diseases depending on its conformation. At the heart of this conformational variability lies structural frustrations. In functional amyloids, evolution tunes frustration levels to achieve either stability or sensitivity according to the fibril's biological function, accounting for the vast versatility of the amyloid fibril scaffold.

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