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Cellular factors important for the de novo formation of yeast prions.

Tuite M, Stojanovski K, Ness F, Merritt G, Koloteva-Levine N.

Biochem Soc Trans. 2008 Oct;36(Pt 5):1083-7. doi: 10.1042/BST0361083. Review.


Effects of Q/N-rich, polyQ, and non-polyQ amyloids on the de novo formation of the [PSI+] prion in yeast and aggregation of Sup35 in vitro.

Derkatch IL, Uptain SM, Outeiro TF, Krishnan R, Lindquist SL, Liebman SW.

Proc Natl Acad Sci U S A. 2004 Aug 31;101(35):12934-9. Epub 2004 Aug 23.


Investigating the interactions of yeast prions: [SWI+], [PSI+], and [PIN+].

Du Z, Li L.

Genetics. 2014 Jun;197(2):685-700. doi: 10.1534/genetics.114.163402. Epub 2014 Apr 11.


Destabilizing interactions among [PSI(+)] and [PIN(+)] yeast prion variants.

Bradley ME, Liebman SW.

Genetics. 2003 Dec;165(4):1675-85. Erratum in: Genetics. 2011 Aug;188(4):1023.


Ribosome-associated peroxiredoxins suppress oxidative stress-induced de novo formation of the [PSI+] prion in yeast.

Sideri TC, Stojanovski K, Tuite MF, Grant CM.

Proc Natl Acad Sci U S A. 2010 Apr 6;107(14):6394-9. doi: 10.1073/pnas.1000347107. Epub 2010 Mar 22.


Selfish prion of Rnq1 mutant in yeast.

Kurahashi H, Shibata S, Ishiwata M, Nakamura Y.

Genes Cells. 2009 May;14(5):659-68. doi: 10.1111/j.1365-2443.2009.01297.x. Epub 2009 Apr 15.


Heterologous aggregates promote de novo prion appearance via more than one mechanism.

Arslan F, Hong JY, Kanneganti V, Park SK, Liebman SW.

PLoS Genet. 2015 Jan 8;11(1):e1004814. doi: 10.1371/journal.pgen.1004814. eCollection 2015 Jan.


The [RNQ+] prion: a model of both functional and pathological amyloid.

Stein KC, True HL.

Prion. 2011 Oct-Dec;5(4):291-8. doi: 10.4161/pri.18213. Epub 2011 Oct 1. Review.


Methionine oxidation of Sup35 protein induces formation of the [PSI+] prion in a yeast peroxiredoxin mutant.

Sideri TC, Koloteva-Levine N, Tuite MF, Grant CM.

J Biol Chem. 2011 Nov 11;286(45):38924-31. doi: 10.1074/jbc.M111.272419. Epub 2011 Aug 9.


Autophagy protects against de novo formation of the [PSI+] prion in yeast.

Speldewinde SH, Doronina VA, Grant CM.

Mol Biol Cell. 2015 Dec 15;26(25):4541-51. doi: 10.1091/mbc.E15-08-0548. Epub 2015 Oct 21.


Biochemical and genetic methods for characterization of [PIN+] prions in yeast.

Liebman SW, Bagriantsev SN, Derkatch IL.

Methods. 2006 May;39(1):23-34.


De novo [PSI +] prion formation involves multiple pathways to form infectious oligomers.

Sharma J, Wisniewski BT, Paulson E, Obaoye JO, Merrill SJ, Manogaran AL.

Sci Rep. 2017 Mar 6;7(1):76. doi: 10.1038/s41598-017-00135-6.


A regulatory role of the Rnq1 nonprion domain for prion propagation and polyglutamine aggregates.

Kurahashi H, Ishiwata M, Shibata S, Nakamura Y.

Mol Cell Biol. 2008 May;28(10):3313-23. doi: 10.1128/MCB.01900-07. Epub 2008 Mar 10.


Heterologous cross-seeding mimics cross-species prion conversion in a yeast model.

Vishveshwara N, Liebman SW.

BMC Biol. 2009 May 26;7:26. doi: 10.1186/1741-7007-7-26.


Prions affect the appearance of other prions: the story of [PIN(+)].

Derkatch IL, Bradley ME, Hong JY, Liebman SW.

Cell. 2001 Jul 27;106(2):171-82.


The role of Sse1 in the de novo formation and variant determination of the [PSI+] prion.

Fan Q, Park KW, Du Z, Morano KA, Li L.

Genetics. 2007 Nov;177(3):1583-93.


Disrupting the cortical actin cytoskeleton points to two distinct mechanisms of yeast [PSI+] prion formation.

Speldewinde SH, Doronina VA, Tuite MF, Grant CM.

PLoS Genet. 2017 Apr 3;13(4):e1006708. doi: 10.1371/journal.pgen.1006708. eCollection 2017 Apr.


Yeast prions: evolution of the prion concept.

Wickner RB, Edskes HK, Shewmaker F, Nakayashiki T, Engel A, McCann L, Kryndushkin D.

Prion. 2007 Apr-Jun;1(2):94-100. Epub 2007 Apr 28. Review.


De novo appearance and "strain" formation of yeast prion [PSI+] are regulated by the heat-shock transcription factor.

Park KW, Hahn JS, Fan Q, Thiele DJ, Li L.

Genetics. 2006 May;173(1):35-47. Epub 2006 Feb 1.

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