Rare Large Scale Subdomain Motions in Prion Protein can Initiate Aggregation |
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| Authors: | Stephan Schwarzinger Anselm H C Horn Jan Ziegler Heinrich Sticht |
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| Institution: | 1. Lehrstuhl Biopolymere Universit?t Bayreuth Universit?tsstra?e 30 , 95447 , Bayreuth , Germany;2. Abteilung Bioinformatik Institut für Biochemie Emil-Fischer-Zentrum Friedrich-Alexander Universit?t , Erlangen , Germany |
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| Abstract: | Abstract The prion protein is thought to induce prion diseases by changing its conformation from the cellular form, PrPc, into the infectious Scrapie-form, PrPSc. Little is known about the structural and dynamical features of this conformational change. We here introduce a novel concept that involves rare large scale motions between the subdomains βl-αl-β2 and α2-α3 in the carboxy-terminal, globular part of PrP. The interface between these two subdomains carries most pathogenic mutations known to be associated with prion diseases. Based on computational simulations as well as experimental results we propose that such a large scale motion subsequently destabilizes large parts of the cellular conformer PrPc, thus, rendering it prone to structural rearrangements, including aggregation of now partially unfolded parts of the PrP sequence. We hypothesize that such large scale motions occur as a rare event even under equilibrium conditions and that the interaction of such partially destabilized PrPc-conformers, which we named PrPc*, contributes to the formation of pathogenic oligomeric species of the prion protein. |
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| Keywords: | TSE BSE Prion Conformational disease Folding intermediates |
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