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1
The mechanisms of [URE3] prion elimination demonstrate that large aggregates of Ure2p are dead-end products.[URE3] 朊病毒消除机制表明,Ure2p的大聚集体是终产物。
EMBO J. 2003 Oct 1;22(19):5251-9. doi: 10.1093/emboj/cdg488.
2
The cellular concentration of the yeast Ure2p prion protein affects its propagation as a prion.酵母Ure2p朊病毒蛋白的细胞浓度会影响其作为朊病毒的传播。
Mol Biol Cell. 2009 Apr;20(8):2286-96. doi: 10.1091/mbc.e08-11-1097. Epub 2009 Feb 18.
3
The yeast prion [URE3] can be greatly induced by a functional mutated URE2 allele.酵母朊病毒[URE3]可被功能性突变的URE2等位基因极大地诱导。
EMBO J. 2000 Jul 3;19(13):3215-22. doi: 10.1093/emboj/19.13.3215.
4
Prions of yeast fail to elicit a transcriptional response.酵母朊病毒无法引发转录反应。
Yeast. 2004 Aug;21(11):963-72. doi: 10.1002/yea.1143.
5
The [URE3] prion is an aggregated form of Ure2p that can be cured by overexpression of Ure2p fragments.[URE3] 朊病毒是Ure2p的一种聚集形式,可通过过表达Ure2p片段来治愈。
Proc Natl Acad Sci U S A. 1999 Feb 16;96(4):1498-503. doi: 10.1073/pnas.96.4.1498.
6
Characterization of the interaction domains of Ure2p, a prion-like protein of yeast.酵母朊病毒样蛋白Ure2p相互作用结构域的表征
Biochem J. 1999 Mar 1;338 ( Pt 2)(Pt 2):403-7.
7
The prion domain of yeast Ure2p induces autocatalytic formation of amyloid fibers by a recombinant fusion protein.酵母Ure2p的朊病毒结构域通过重组融合蛋白诱导淀粉样纤维的自催化形成。
Protein Sci. 2000 Mar;9(3):440-51. doi: 10.1110/ps.9.3.440.
8
Conservation of a portion of the S. cerevisiae Ure2p prion domain that interacts with the full-length protein.酿酒酵母Ure2p朊病毒结构域中与全长蛋白质相互作用的一部分的保守性。
Proc Natl Acad Sci U S A. 2002 Dec 10;99 Suppl 4(Suppl 4):16384-91. doi: 10.1073/pnas.162349599. Epub 2002 Aug 12.
9
The [URE3] yeast prion: from genetics to biochemistry.[URE3]酵母朊病毒:从遗传学到生物化学
Biochemistry (Mosc). 1999 Dec;64(12):1401-7.
10
The [URE3] yeast prion results from protein aggregates that differ from amyloid filaments formed in vitro.[URE3]酵母朊病毒源于与体外形成的淀粉样细丝不同的蛋白质聚集体。
J Biol Chem. 2004 Dec 3;279(49):50962-8. doi: 10.1074/jbc.M408792200. Epub 2004 Sep 28.

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Variant-specific and reciprocal Hsp40 functions in Hsp104-mediated prion elimination.Hsp104介导的朊病毒消除中特定变体和相互作用的Hsp40功能。
Mol Microbiol. 2018 Apr 6;109(1):41-62. doi: 10.1111/mmi.13966.
2
Real-time imaging of yeast cells reveals several distinct mechanisms of curing of the [URE3] prion.实时成像酵母细胞揭示了几种不同的 [URE3] 朊病毒的治愈机制。
J Biol Chem. 2018 Mar 2;293(9):3104-3117. doi: 10.1074/jbc.M117.809079. Epub 2018 Jan 12.
3
Prion-specific Hsp40 function: The role of the auxilin homolog Swa2.朊病毒特异性热休克蛋白40的功能:辅助蛋白同源物Swa2的作用。
Prion. 2017 May 4;11(3):174-185. doi: 10.1080/19336896.2017.1331810.
4
The involvement of mRNA processing factors TIA-1, TIAR, and PABP-1 during mammalian hibernation.mRNA加工因子TIA-1、TIAR和PABP-1在哺乳动物冬眠过程中的参与情况。
Cell Stress Chaperones. 2014 Nov;19(6):813-25. doi: 10.1007/s12192-014-0505-8. Epub 2014 Mar 4.
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The story of stolen chaperones: how overexpression of Q/N proteins cures yeast prions.偷配型伴侣的故事:Q/N 蛋白过表达如何治愈酵母朊病毒。
Prion. 2013 Jul-Aug;7(4):294-300. doi: 10.4161/pri.26021. Epub 2013 Aug 7.
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Heterologous gln/asn-rich proteins impede the propagation of yeast prions by altering chaperone availability.富含谷氨酰胺/天冬酰胺的异源蛋白通过改变伴侣蛋白可用性来阻碍酵母朊病毒的传播。
PLoS Genet. 2013;9(1):e1003236. doi: 10.1371/journal.pgen.1003236. Epub 2013 Jan 24.
7
A bipolar personality of yeast prion proteins.酵母朊病毒蛋白的双相人格。
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8
Methionine oxidation of Sup35 protein induces formation of the [PSI+] prion in a yeast peroxiredoxin mutant.苏氨酸氧化诱导 Sup35 蛋白形成酵母过氧化物酶突变体中的 [PSI+] 朊病毒。
J Biol Chem. 2011 Nov 11;286(45):38924-31. doi: 10.1074/jbc.M111.272419. Epub 2011 Aug 9.
9
[SWI], the prion formed by the chromatin remodeling factor Swi1, is highly sensitive to alterations in Hsp70 chaperone system activity.[SWI],由染色质重塑因子 Swi1 形成的朊病毒,对 Hsp70 伴侣系统活性的改变高度敏感。
PLoS Genet. 2011 Feb;7(2):e1001309. doi: 10.1371/journal.pgen.1001309. Epub 2011 Feb 17.
10
Prion dynamics and the quest for the genetic determinant in protein-only inheritance.朊病毒动力学与寻找仅蛋白质遗传中的遗传决定因素的探索。
Curr Opin Microbiol. 2009 Dec;12(6):623-30. doi: 10.1016/j.mib.2009.09.003. Epub 2009 Oct 26.

本文引用的文献

1
Conservation of the prion properties of Ure2p through evolution.Ure2p朊病毒特性在进化过程中的保守性。
Mol Biol Cell. 2003 Aug;14(8):3449-58. doi: 10.1091/mbc.e03-01-0007. Epub 2003 May 18.
2
Internal initiation drives the synthesis of Ure2 protein lacking the prion domain and affects [URE3] propagation in yeast cells.内部起始驱动缺乏朊病毒结构域的Ure2蛋白的合成,并影响酵母细胞中[URE3]的传播。
EMBO J. 2003 Mar 3;22(5):1199-209. doi: 10.1093/emboj/cdg103.
3
Conservation of a portion of the S. cerevisiae Ure2p prion domain that interacts with the full-length protein.酿酒酵母Ure2p朊病毒结构域中与全长蛋白质相互作用的一部分的保守性。
Proc Natl Acad Sci U S A. 2002 Dec 10;99 Suppl 4(Suppl 4):16384-91. doi: 10.1073/pnas.162349599. Epub 2002 Aug 12.
4
Amino acid residue 184 of yeast Hsp104 chaperone is critical for prion-curing by guanidine, prion propagation, and thermotolerance.酵母Hsp104伴侣蛋白的第184位氨基酸残基对于胍治愈朊病毒、朊病毒传播和耐热性至关重要。
Proc Natl Acad Sci U S A. 2002 Jul 23;99(15):9936-41. doi: 10.1073/pnas.152333299. Epub 2002 Jul 8.
5
Guanidine hydrochloride inhibits the generation of prion "seeds" but not prion protein aggregation in yeast.盐酸胍可抑制酵母中朊病毒“种子”的产生,但不抑制朊病毒蛋白的聚集。
Mol Cell Biol. 2002 Aug;22(15):5593-605. doi: 10.1128/MCB.22.15.5593-5605.2002.
6
Toxic proteins in neurodegenerative disease.神经退行性疾病中的毒性蛋白。
Science. 2002 Jun 14;296(5575):1991-5. doi: 10.1126/science.1067122.
7
Inherent toxicity of aggregates implies a common mechanism for protein misfolding diseases.聚集体的内在毒性意味着蛋白质错误折叠疾病存在共同机制。
Nature. 2002 Apr 4;416(6880):507-11. doi: 10.1038/416507a.
8
The protein-only theory and the yeast Saccharomyces cerevisiae: the prions and the propagons.仅蛋白质理论与酿酒酵母:朊病毒与传播子。
Cell Mol Life Sci. 2001 Nov;58(12-13):1857-78. doi: 10.1007/PL00000823.
9
The [URE3] phenotype: evidence for a soluble prion in yeast.[URE3] 表型:酵母中可溶性朊病毒的证据。
EMBO Rep. 2002 Jan;3(1):76-81. doi: 10.1093/embo-reports/kvf011. Epub 2001 Dec 19.
10
Yeast prion protein derivative defective in aggregate shearing and production of new 'seeds'.酵母朊病毒蛋白衍生物在聚集体剪切和新“种子”产生方面存在缺陷。
EMBO J. 2001 Dec 3;20(23):6683-91. doi: 10.1093/emboj/20.23.6683.

[URE3] 朊病毒消除机制表明,Ure2p的大聚集体是终产物。

The mechanisms of [URE3] prion elimination demonstrate that large aggregates of Ure2p are dead-end products.

作者信息

Ripaud Leslie, Maillet Laurent, Cullin Christophe

机构信息

IBGC, CNRS UMR5095, 1, rue Camille Saint Saens, 33077 Bordeaux , France.

出版信息

EMBO J. 2003 Oct 1;22(19):5251-9. doi: 10.1093/emboj/cdg488.

DOI:10.1093/emboj/cdg488
PMID:14517262
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC204471/
Abstract

The yeast prion [URE3] is a self-propagating inactive form (the propagon) of the Ure2 protein. Ure2p is composed of two domains: residues 1-93--the prion-forming domain (PFD)--and the remaining C-terminal part of the protein, which forms the functional domain involved in nitrogen catabolite repression. Guanidine hydrochloride, and the overproduction of Ure2p 1-65 or Ure2-GFP have been shown to induce the elimination of [URE3]. We demonstrate here, two different curing mechanisms: the inhibition of [URE3] replication by guanidine hydrochloride and its destruction by Ure2p aggregation. Such aggregation is observed if PFD or Ure2-GFP are overproduced and in heterozygous URE2/URE2-GFP, [URE3] diploids. We found that the GFP foci associated with the presence of the prion were dead-end products, the propagons remaining soluble. Surprisingly, [URE3] propagated via the Ure2-GFP fusion protein alone is resistant to these two curing mechanisms and cannot promote the formation of foci. The relationship between aggregation, prion and Hsp104 gives rise to a model in which the propagon is in equilibrium with larger aggregates and functional protein.

摘要

酵母朊病毒[URE3]是Ure2蛋白的一种自我传播的无活性形式(朊病毒原)。Ure2p由两个结构域组成:1-93位残基——朊病毒形成结构域(PFD),以及蛋白质其余的C末端部分,该部分形成参与氮代谢物阻遏的功能结构域。盐酸胍以及Ure2p 1-65或Ure2-GFP的过量表达已被证明可诱导[URE3]的消除。我们在此证明了两种不同的治愈机制:盐酸胍对[URE3]复制的抑制作用以及Ure2p聚集对其的破坏作用。如果PFD或Ure2-GFP过量表达,以及在杂合URE2/URE2-GFP [URE3]二倍体中,都会观察到这种聚集。我们发现与朊病毒存在相关的GFP聚集点是终产物,朊病毒原保持可溶状态。令人惊讶的是,仅通过Ure2-GFP融合蛋白传播的[URE3]对这两种治愈机制具有抗性,并且不能促进聚集点的形成。聚集、朊病毒和Hsp104之间的关系产生了一个模型,其中朊病毒原与更大的聚集体和功能蛋白处于平衡状态。