Strain-specific morphologies of yeast prion amyloid fibrils

Abstract

Mass per length (mpl) measurements on single amyloid fibrils that specifically propagate the [VH], [VK], and [VL] strains of the yeast prion [PSI] reveal unanticipated differences in their structures. Many fibrils have ≈1.0 prion molecule per 4.7-Å cross-β repeat period, which is consistent with a self-replicating model built by parallel β-sheet hydrogen-bonding of like prion peptide segments, but other fibrils are definitely heavier. The predominantly straight fibrils of the dominant [VH] strain have a bimodal mpl distribution, corresponding to components with ≈1.0 and 1.2 prions per repeat. Fibrils of the weaker [VK] strain, which are almost all wavy, have a monodisperse mpl distribution with a mean of 1.15 prions per repeat. The recessive [VL] strain sample has ≈1.05 prions per repeat in single fibrils and includes ≈10% double fibrils, which are rare in the duplicate [VH] and [VK] samples. All of these samples were assembled from purified recombinant Sup35 prion protein by seeded growth on nuclei extracted from yeast bearing the three [PSI] strains. Infectious and noninfectious spontaneously assembled fibrils of the recombinant prion protein also display different heterogeneous morphologies. The strain-specific morphological differences we have observed directly confirm the structural prediction of the protein-only prion theory but do not have an obvious molecular explanation.

• mass per length
• scanning transmission electron microscopy
• cross-β ply
• [PSI] propagation
• nucleated assembly