4 research outputs found

    Prion Formation and Polyglutamine Aggregation Are Controlled by Two Classes of Genes

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    Prions are self-perpetuating aggregated proteins that are not limited to mammalian systems but also exist in lower eukaryotes including yeast. While much work has focused around chaperones involved in prion maintenance, including Hsp104, little is known about factors involved in the appearance of prions. De novo appearance of the [PSI+] prion, which is the aggregated form of the Sup35 protein, is dramatically enhanced by transient overexpression of SUP35 in the presence of the prion form of the Rnq1 protein, [PIN+]. When fused to GFP and overexpressed in [psβˆ’] [PIN+] cells, Sup35 forms fluorescent rings, and cells with these rings bud off [PSI+] daughters. We investigated the effects of over 400 gene deletions on this de novo induction of [PSI+]. Two classes of gene deletions were identified. Class I deletions (bug1Ξ”, bem1Ξ”, arf1Ξ”, and hog1Ξ”) reduced the efficiency of [PSI+] induction, but formed rings normally. Class II deletions (las17Ξ”, vps5Ξ”, and sac6Ξ”) inhibited both [PSI+] induction and ring formation. Furthermore, class II deletions reduced, while class I deletions enhanced, toxicity associated with the expanded glutamine repeats of the huntingtin protein exon 1 that causes Huntington's disease. This suggests that prion formation and polyglutamine aggregation involve a multi-phase process that can be inhibited at different steps.National Institutes of Health (U.S.) (grant GM56350)National Institutes of Health (U.S.) (NSRA F32 postdoctoral fellowship GM072340)National Institutes of Health (U.S.) (grant GM25874)Howard Hughes Medical Institut

    Propagation of yeast prions

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    Discusses the mechanism by which certain yeast proteins can take on and propagate a transmissible prion form. Information on the prion-associated phenotypes in yeast; Criteria that establish a prion; Details on the key sequence features for prion conversion and propagation
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