What makes functional amyloids work?

Although first described in the context of disease, cross-beta (amyloid) fibrils have also been found as functional entities in all kingdoms of life. However, what are the specific properties of the cross-beta fibril motif that convey biological function, make them especially suited for their particular purpose, and distinguish them from other fibrils found in biology? This review approaches these questions by arguing that cross-beta fibrils are highly periodic, stable, and self-templating structures whose formation is accompanied by substantial conformational change that leads to a multimerization of their core and framing sequences. A discussion of each of these properties is followed by selected examples of functional cross-beta fibrils that show how function is usually achieved by leveraging many of these properties.