朊病毒变体和酵母菌株变异对朊病毒-分子伴侣需求的影响。
Influence of prion variant and yeast strain variation on prion-molecular chaperone requirements.
机构信息
Department of Biochemistry, University of Wisconsin-Madison, Madison, WI, USA.
出版信息
Prion. 2011 Oct-Dec;5(4):238-44. doi: 10.4161/pri.17818. Epub 2011 Oct 1.
Abstract
Prions of budding yeast serve as a tractable model of amyloid behavior. Here we address the issue of the effect of yeast strain variation on prion stability, focusing also on the effect of amyloid conformation and the involvement of the co-chaperone Sis1, an essential J-protein partner of Hsp70. We found, despite an initial report to the contrary, that yeast strain background has little effect on the requirement for particular Sis1 domains for stable propagation of the prion [RNQ+], if the level of Sis1 expression is controlled. On the other hand, some variation in prion behavior was observed between yeast strains, in particular, the stability of certain [PSI+] variants. Future examination of such yeast strain-specific phenomena may provide useful insights into the basis of prion/chaperone dynamics.
摘要
芽殖酵母朊病毒可作为一种易于处理的淀粉样行为模型。在这里,我们主要研究酵母菌株变化对朊病毒稳定性的影响,同时还研究了淀粉样构象的影响以及共伴侣 Sis1 的作用,后者是 Hsp70 的重要 J 蛋白伴侣。我们发现,尽管有初步报告表明相反,但如果控制 Sis1 表达水平,则酵母菌株背景对特定 Sis1 结构域稳定传播朊病毒 [RNQ+] 的需求影响不大。另一方面,在酵母菌株之间观察到朊病毒行为的一些变化,特别是某些 [PSI+] 变体的稳定性。未来对这种酵母菌株特异性现象的研究可能会深入了解朊病毒/伴侣动力学的基础。
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