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We present methods to prepare infectious Sup35 protein aggregates and use them for genetic transformation of yeast. The protein aggregates are prepared from bacterially expressed recombinant protein, which is converted to amyloid fibers by extended incubation or by nucleated growth using yeast prion particles as seeds. The aggregates are introduced into yeast by a modified spheroplast transformation...
The Saccharomyces cerevisiae prion [URE3] is the infectious amyloid form of the Ure2p protein. [URE3] provides a useful model system for studying amyloid formation and stability in vivo. When grown in the presence of a good nitrogen source, [URE3] cells are able to take up ureidosuccinate, an intermediate in uracil biosynthesis, while cells lacking the [URE3] prion can not. This ability to take up...
In prion propagation, fragmentation of amyloid fibers, as well as conformational conversion of prion protein, is critical: the latter increases the net amount of abnormal prion proteins and the former multiplies number of seeds. We present here a method for in vitro measurement of fragmentation of amyloid fibers of yeast Sup35 prion protein. In this method, amyloid fibers are tethered to the surface...
Infectious proteins (prions) in yeast or other microorganisms can be identified by genetic methods of rather general applicability. Infection in yeast means transfer by cytoplasmic mixing (cytoduction), a property of all non-chromosomal genetic elements whether plasmids, viruses, or prions. Prions can be diagnosed by reversible curability, increased occurrence when the corresponding protein is overproduced,...
The glutamine- and asparagine-rich Rnq1p protein in Saccharomyces cerevisiae can exist in the cell as a soluble monomer or in one of several aggregated, infectious, prion forms called [PIN + ]. Interest in [PIN + ] is heightened by its ability to promote the conversion of other proteins into a prion or an aggregated amyloid state. However, little is known about the function of Rnq1p,...
Prions have been described in mammals and fungi. The [Het-s] infectious genetic element of the filamentous fungus Podospora anserina is the prion form of the HET-s protein. This protein is involved in the control of a cell death reaction termed heterokaryon incompatibility. The infectious form of HET-s corresponds to a self-perpetuating amyloid. The purpose of the present paper is to describe the...
Amyloids and prions represent aggregates of misfolded proteins, which consist of protein polymer fibrils with cross-beta sheet structure. Understanding of their occurrence and role is developing rapidly. Initially, they were found associated with mammalian diseases, mainly of neurodegenerative nature. Now they are known to relate to a range of non-disease phenomena in different species from mammals...
The aggregation of polyglutamine containing protein sequences is implicated in a family of familial neurodegenerative diseases, the expanded CAG repeat diseases. While the cellular aggregation process undoubtedly depends on the flux and local environment of these proteins, their intrinsic physical properties and folding/aggregation propensities must also contribute to their cellular behavior. Here...
The results of cell and animal model studies demonstrate that molecular chaperones play an important role in controlling the processes of protein misfolding and amyloid formation in vivo. In addition, chaperones are involved in the appearance, propagation and clearance of prion phenotypes in yeast. The effect of chaperones on amyloid formation has been studied in great detail in recent years in order...
This review describes different ways to achieve and monitor reproducible aggregation of α-synuclein, a key protein in the development of Parkinson’s disease. For most globular proteins, aggregation is promoted by partially denaturing conditions which compromise the native state without destabilizing the intermolecular contacts required for accumulation of regular amyloid structure. As a natively disordered...
The formation of amyloid-like fibrils is a hallmark of several neurodegenerative diseases. How the assembly of amyloid-like fibrils contributes to cell death is a major unresolved question in the field. The budding yeast Saccharomyces cerevisiae is a powerful model organism to study basic mechanisms for how cellular pathways regulate amyloid assembly and proteotoxicity. For example, studies of the...
Electrospray ionisation-ion mobility spectrometry–mass spectrometry (ESI-IMS–MS) is a powerful method for the study of conformational changes in protein complexes, including oligomeric species populated during protein self-aggregation into amyloid fibrils. Information on the mass, stability, cross-sectional area and ligand binding capability of each transiently populated intermediate, present in the...
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