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Genetic and physical interaction of Sgt2 protein with prion-chaperone machineryPan, Tao 10 August 2011 (has links)
The word "Prion" refers to self-perpetuating protein aggregates that cause neurodegenerative diseases in mammals. It is a protein isoform that has undergone a conformational change which converts the normal form of the protein into the infectious form with the same amino acid sequence.
Yeast [PSI+] prion is the prion isoform of Sup35 protein, a translation termination factor eRF3. It has been suggested that prion [PSI+] is controlled by the ensemble of chaperones with Hsp104 playing the major role. The previous work performed in the Chernoffs lab showed that the defective GET pathway caused by get led to the defect in [PSI+] curing by excess Hsp104. The GET pathway is a system responsible for transporting newly synthesized TA-protein to the ER membrane, and the components which have been proven to be involved in this pathway include: Get1, Get2, Get3, Get4, Get5 and Sgt2. In this study we describe the mechanism underlying the effect of the defective GET pathway on [PSI+]. We demonstrate that Sgt2, one of the components of GET pathway, interacts with Sup35 in both [PSI+] and [psi-] strains through its prion domain. Overproduction of Sgt2 and Hsp70-Ssa is triggered by the defective GET pathway and leads to the protection of [PSI+] aggregates from curing by excess Hsp104. We show that the direct interaction between Sgt2 and Hsp70-Ssa is not required for this protective effect.
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Effects of the components of the Get pathway on prion propagationBariar, Bhawana 15 November 2007 (has links)
Yeast prions e.g. [PSI+], [PIN+] and [URE3] are similar to mammalian amyloids that cause neurodegenerative diseases. [PSI+] is the aggregated self-perpetuating (prion) isoform of Sup35, a translation termination factor. The molecular chaperone Hsp104 plays a crucial role in the maintenance and propagation of [PSI+]. Deletion of the GET2 gene has been shown to cause a [PSI+] curing defect by excess Hsp104 and [PSI+] instability on synthetic medium (S. Muller, J. Patterson and Y. Chernoff, unpublished data; and J. Patterson Honors Thesis). Get2 is a membrane protein working in a complex with Get1 and Get3 proteins. This complex, called GET (Golgi-to-ER Traffic), is known to retrieve resident ER proteins from Golgi. In this particular study we provide further evidence for the connection between the GET pathway and yeast prions. The get2 deletion also leads to a detectable loss of [PIN+] prion on synthetic medium. The role of the other two members of the Get complex in prion propagation is also explored. The levels and the activity of Hsp104 in the get2 mutants is analyzed. The size of [PSI+] aggregates in the get2Δ strain is compared to that found in wild type. Finally, other possible mechanisms for the effect of get2 on prion maintenance and propagation are addressed.
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