酵母脱氧hypusine合酶功能位点和表达的新特征。

R Abid, K Ueda, M Miyazaki
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引用次数: 5

摘要

真核生物翻译起始因子5A (eIF-5A)的前体在翻译后形成一种独特的氨基酸,hypusine。脱氧hypusine合成酶催化hypusine生物合成的两步中的第一步。我们之前报道过编码脱氧碱基合成酶的DYS1基因对酵母的细胞活力和增殖至关重要。在这里,我们通过缺失研究表明,N端和c端区域,不是很好地保守,是酵母酶活性所必需的。在酵母酶中存在的七个半胱氨酸残基中,只有一个半胱氨酸(位置252;C252)似乎对其活性至关重要。中度过表达DYS1对细胞生长影响很小,对细胞内eIF-5A水平无明显影响。然而,DYS1表达的抑制导致eIF-5A在抑制开始24小时后几乎完全耗尽,并在24小时后细胞生长停止。这一新发现表明,脱氧hypusine合酶在细胞增殖中的主要作用不仅是通过其对eIF-5A前体的修饰,还通过其对细胞内eIF-5A水平的调节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel features of the functional site and expression of the yeast deoxyhypusine synthase.

A unique amino acid, hypusine, is formed posttranslationally in the precursor of eukaryotic translation initiation factor 5A (eIF-5A). Deoxyhypusine synthase catalyzes the first of two steps in the biosynthesis of hypusine. We reported earlier that the DYS1 gene encoding deoxyhypusine synthase is essential for cell viability and proliferation in yeast. Here, we show by deletion studies that both N- and C-terminal regions, which are not so well conserved, are necessary for the activity of the yeast enzyme. Of the seven cysteine residues present in the yeast enzyme, only one cysteine (position 252; C252) appeared to be essential for its activity. Moderate overexpression of DYS1 showed very little effects on cell growth and no obvious effects on the intracellular level of eIF-5A. However, repression of the expression of DYS1 resulted in near-complete depletion of eIF-5A 24 h after the initiation of repression and was followed by cell growth arrest after another 24 h. This novel finding suggests that the major role of deoxyhypusine synthase in cell proliferation is mediated not only through its modification of the eIF-5A precursor, but also through its regulation of intracellular eIF-5A levels.

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