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Dynamics of oligomer and amyloid fibril formation by yeast prion Sup35 observed by high-speed atomic force microscopy

Hiroki Konno, Takahiro Watanabe‐Nakayama, Takayuki Uchihashi, Momoko Okuda, Liwen Zhu, Noriyuki Kodera, Yousuke Kikuchi, Toshio Ando, Hideki Taguchi

2020Proceedings of the National Academy of Sciences53 citationsDOIOpen Access PDF

Abstract

]. Using high-speed atomic force microscopy (HS-AFM), we directly visualized the prion determinant domain (Sup35NM) and the formation of its oligomers and fibrils at subsecond and submolecular resolutions. Monomers with freely moving tail-like regions initially appeared in the images, and subsequently oligomers with distinct sizes of ∼1.7 and 3 to 4 nm progressively accumulated. Nevertheless, these oligomers did not form fibrils, even after an incubation for 2 h in the presence of monomers. Fibrils appeared after much longer monomer incubation. The fibril elongation occurred smoothly without discrete steps, suggesting gradual conversions of the incorporated monomers into cross-β structures. The individual oligomers were separated from each other and also from the fibrils by respective, identical lengths on the mica surface, probably due to repulsion caused by the freely moving disordered regions. Based on these HS-AFM observations, we propose that the freely moving tails of the monomers are incorporated into the fibril ends, and then the structural conversions to cross-β structures gradually occur.

Topics & Concepts

FibrilMonomerOligomerElongationBiophysicsChemistryCrystallographyMicaAtomic force microscopyMolecular dynamicsAmyloid (mycology)PolymerMaterials scienceNanotechnologyPolymer chemistryBiochemistryBiologyUltimate tensile strengthComputational chemistryOrganic chemistryComposite materialMetallurgyInorganic chemistryPrion Diseases and Protein MisfoldingAlzheimer's disease research and treatmentsTrace Elements in Health