2007
DOI: 10.1073/pnas.0611503104
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A natively unfolded yeast prion monomer adopts an ensemble of collapsed and rapidly fluctuating structures

Abstract: The yeast prion protein Sup35 is a translation termination factor, whose activity is modulated by sequestration into a self-perpetuating amyloid. The prion-determining domain, NM, consists of two distinct regions: an amyloidogenic N terminus domain (N) and a charged solubilizing middle region (M). To gain insight into prion conversion, we used single-molecule fluorescence resonance energy transfer (SM-FRET) and fluorescence correlation spectroscopy to investigate the structure and dynamics of monomeric NM. Low… Show more

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Cited by 312 publications
(321 citation statements)
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“…This apparent inconsistency of previous results regarding amyloid toxicity may result from the structural diversity of amyloid, as amyloid-forming protein often misfolds into multiple conformations and each conformation could exert distinct physiological effects (19,23). Previous reports indicate that the thermodynamic parameter of temperature can modulate protein folding and dynamics of amyloid-forming proteins, leading to different amyloid conformations (19,(32)(33)(34). Here we took advantages of this fact by making distinct thtt amyloids simply by polymerizing thtt protein at 4°C or 37°C.…”
Section: Discussionmentioning
confidence: 99%
“…This apparent inconsistency of previous results regarding amyloid toxicity may result from the structural diversity of amyloid, as amyloid-forming protein often misfolds into multiple conformations and each conformation could exert distinct physiological effects (19,23). Previous reports indicate that the thermodynamic parameter of temperature can modulate protein folding and dynamics of amyloid-forming proteins, leading to different amyloid conformations (19,(32)(33)(34). Here we took advantages of this fact by making distinct thtt amyloids simply by polymerizing thtt protein at 4°C or 37°C.…”
Section: Discussionmentioning
confidence: 99%
“…This property keeps them disordered unless they are forced to fold, for example, by binding to a partner protein. However, some IDPs have low charge density but are polar enough to form a loose globular state in the absence of denaturants (6,19). Interestingly, as noted by Müller-Späth et al, even when a protein's chain is electrically neutral overall, a larger number of charged residues may increase its self-attraction and lead to an even more collapsed configuration than dictated by hydrophobic interactions alone.…”
mentioning
confidence: 92%
“…IDPs do not have unique folds but consist of dynamic ensembles of interconverting, intermittent structures. 10,11 The high intramolecular flexibility inherent to IDPs means that distant elements are largely structurally decoupled. Structure formation, and hence function, is thus related to segmental parts of the sequence and dominated by local features.…”
Section: Introductionmentioning
confidence: 99%