[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。

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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。

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