Skn1 和 Ipt1 负调控酿酒酵母中的自噬作用。
Skn1 and Ipt1 negatively regulate autophagy in Saccharomyces cerevisiae.
机构信息
Centre of Microbial and Plant Genetics (CMPG), Katholieke Universiteit Leuven, Heverlee, Belgium.
出版信息
FEMS Microbiol Lett. 2010 Feb;303(2):163-8. doi: 10.1111/j.1574-6968.2009.01869.x. Epub 2009 Nov 27.
Abstract
We demonstrated that a yeast deletion mutant in IPT1 and SKN1, encoding proteins involved in the biosynthesis of mannosyldiinositolphosphoryl ceramides, is characterized by increased autophagy and DNA fragmentation upon nitrogen (N) starvation as compared with the single deletion mutants or wild type (WT). Apoptotic features were not significantly different between single and double deletion mutants upon N starvation, pointing to increased autophagy in the double Deltaipt1 Deltaskn1 deletion mutant independent of apoptosis. We observed increased basal levels of phytosphingosine in membranes of the double Deltaipt1 Deltaskn1 deletion mutant as compared with the single deletion mutants or WT. These data point to a negative regulation of autophagy by both Ipt1 and Skn1 in yeast, with a putative involvement of phytosphingosine in this process.
摘要
我们证明,与单缺失突变体或野生型(WT)相比,编码参与甘露糖二肌醇磷酸神经酰胺生物合成的蛋白质的酵母 IPT1 和 SKN1 缺失突变体在氮(N)饥饿时表现出增加的自噬和 DNA 片段化。在 N 饥饿时,凋亡特征在单和双缺失突变体之间没有显著差异,表明在双Δipt1Δskn1 缺失突变体中,独立于凋亡的自噬增加。与单缺失突变体或 WT 相比,我们观察到双Δipt1Δskn1 缺失突变体的膜中植物鞘氨醇的基础水平增加。这些数据表明 Ipt1 和 Skn1 在酵母中对自噬具有负调控作用,植物鞘氨醇可能参与了这一过程。
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