细菌翻译起始因子IF2的人类和古细菌同源物揭示了翻译起始中的普遍保守性。
Universal conservation in translation initiation revealed by human and archaeal homologs of bacterial translation initiation factor IF2.
作者信息
Lee J H, Choi S K, Roll-Mecak A, Burley S K, Dever T E
机构信息
Laboratory of Eukaryotic Gene Regulation, National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD 20892-2716, USA.
出版信息
Proc Natl Acad Sci U S A. 1999 Apr 13;96(8):4342-7. doi: 10.1073/pnas.96.8.4342.
Abstract
Binding of initiator methionyl-tRNA to ribosomes is catalyzed in prokaryotes by initiation factor (IF) IF2 and in eukaryotes by eIF2. The discovery of both IF2 and eIF2 homologs in yeast and archaea suggested that these microbes possess an evolutionarily intermediate protein synthesis apparatus. We describe the identification of a human IF2 homolog, and we demonstrate by using in vivo and in vitro assays that human IF2 functions as a translation factor. In addition, we show that archaea IF2 can substitute for its yeast homolog both in vivo and in vitro. We propose a universally conserved function for IF2 in facilitating the proper binding of initiator methionyl-tRNA to the ribosomal P site.
摘要
在原核生物中,起始甲硫氨酰 - tRNA与核糖体的结合由起始因子(IF)IF2催化,而在真核生物中则由eIF2催化。在酵母和古细菌中发现了IF2和eIF2的同源物,这表明这些微生物拥有进化上处于中间阶段的蛋白质合成装置。我们描述了一种人类IF2同源物的鉴定,并通过体内和体外实验证明人类IF2作为一种翻译因子发挥作用。此外,我们表明古细菌IF2在体内和体外都可以替代其酵母同源物。我们提出IF2在促进起始甲硫氨酰 - tRNA与核糖体P位点的正确结合方面具有普遍保守的功能。
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