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Old 04-19-2011, 11:01 PM
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Default The Core of Ure2p Prion Fibrils Is Formed by the N-Terminal Segment in a Parallel Cross-? Structure: Evidence from Solid-State NMR.

The Core of Ure2p Prion Fibrils Is Formed by the N-Terminal Segment in a Parallel Cross-? Structure: Evidence from Solid-State NMR.

The Core of Ure2p Prion Fibrils Is Formed by the N-Terminal Segment in a Parallel Cross-? Structure: Evidence from Solid-State NMR.

J Mol Biol. 2011 Apr 8;

Authors: Kryndushkin DS, Wickner RB, Tycko R

Intracellular fibril formation by Ure2p produces the non-Mendelian genetic element [URE3] in Saccharomyces cerevisiae, making Ure2p a prion protein. We show that solid-state NMR spectra of full-length Ure2p fibrils, seeded with infectious prions from a specific [URE3] strain and labeled with uniformly (15)N-(13)C-enriched Ile, include strong, sharp signals from Ile residues in the globular C-terminal domain (CTD) with both helical and nonhelical (13)C chemical shifts. Treatment with proteinase K eliminates these CTD signals, leaving only nonhelical signals from the Gln-rich and Asn-rich N-terminal segment, which are also observed in the solid-state NMR spectra of Ile-labeled fibrils formed by residues 1-89 of Ure2p. Thus, the N-terminal segment, or "prion domain" (PD), forms the fibril core, while CTD units are located outside the core. We additionally show that, after proteinase K treatment, Ile-labeled Ure2p fibrils formed without prion seeding exhibit a broader set of solid-state NMR signals than do prion-seeded fibrils, consistent with the idea that structural variations within the PD core account for prion strains. Measurements of (13)C-(13)C magnetic dipole-dipole couplings among (13)C-labeled Ile carbonyl sites in full-length Ure2p fibrils support an in-register parallel ?-sheet structure for the PD core of Ure2p fibrils. Finally, we show that a model in which CTD units are attached rigidly to the parallel ?-sheet core is consistent with steric constraints.

PMID: 21497604 [PubMed - as supplied by publisher]



Source: PubMed
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