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W2275984792 endingPage "734" @default.
W2275984792 startingPage "709" @default.
W2275984792 abstract "Protein aggregates are associated with a variety of debilitating human diseases, but they can have functional roles as well. Both pathological and nonpathological protein aggregates display tremendous diversity, with substantial differences in aggregate size, morphology, and structure. Among the different aggregation types, amyloids are particularly remarkable, because of their high degree of order and their ability to form self-perpetuating conformational states. Amyloids form the structural basis for a group of proteins called prions, which have the ability to generate new phenotypes by a simple switch in protein conformation that does not involve changes in the sequence of the DNA. Although protein aggregates are notoriously difficult to study, recent technological developments and, in particular, the use of yeast prions as model systems, have been very instrumental in understanding fundamental aspects of aggregation. Here, we provide a range of biochemical, cell biological and yeast genetic methods that are currently used in our laboratory to study protein aggregation and the formation of amyloids and prions." @default.
W2275984792 created "2016-06-24" @default.
W2275984792 creator A5008277442 @default.
W2275984792 creator A5019700045 @default.
W2275984792 creator A5057607550 @default.
W2275984792 date "2010-01-01" @default.
W2275984792 modified "2023-10-13" @default.
W2275984792 title "Biochemical, Cell Biological, and Genetic Assays to Analyze Amyloid and Prion Aggregation in Yeast" @default.
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W2275984792 doi "https://doi.org/10.1016/s0076-6879(10)70030-6" @default.
W2275984792 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20946833" @default.
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