配体和突变对起始因子 2 的激活作用促进核糖体亚基的快速对接。

Activation of initiation factor 2 by ligands and mutations for rapid docking of ribosomal subunits.

机构信息

Department of Cell and Molecular Biology, BMC, Uppsala University, Uppsala, Sweden.

出版信息

EMBO J. 2011 Jan 19;30(2):289-301. doi: 10.1038/emboj.2010.328. Epub 2010 Dec 10.

DOI:10.1038/emboj.2010.328

PMID:21151095

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3025470/

Abstract

We previously identified mutations in the GTPase initiation factor 2 (IF2), located outside its tRNA-binding domain, compensating strongly (A-type) or weakly (B-type) for initiator tRNA formylation deficiency. We show here that rapid docking of 30S with 50S subunits in initiation of translation depends on switching 30S subunit-bound IF2 from its inactive to active form. Activation of wild-type IF2 requires GTP and formylated initiator tRNA (fMet-tRNA(i)). In contrast, extensive activation of A-type IF2 occurs with only GTP or with GDP and fMet-tRNA(i), implying a passive role for initiator tRNA as activator of IF2 in subunit docking. The theory of conditional switching of GTPases quantitatively accounts for all our experimental data. We find that GTP, GDP, fMet-tRNA(i) and A-type mutations multiplicatively increase the equilibrium ratio, K, between active and inactive forms of IF2 from a value of 4 × 10(-4) for wild-type apo-IF2 by factors of 300, 8, 80 and 20, respectively. Functional characterization of the A-type mutations provides keys to structural interpretation of conditional switching of IF2 and other multidomain GTPases.

摘要

我们之前鉴定了位于 GTP 酶起始因子 2（IF2）的 tRNA 结合结构域外的突变，这些突变能强烈（A 型）或微弱（B 型）补偿起始 tRNA 甲酰化缺陷。我们在这里表明，翻译起始时 30S 与 50S 亚基的快速对接取决于将 30S 亚基结合的 IF2 从非活性形式转换为活性形式。野生型 IF2 的激活需要 GTP 和甲酰化的起始 tRNA（fMet-tRNA(i)）。相比之下，A 型 IF2 的广泛激活仅需要 GTP 或 GDP 和 fMet-tRNA(i)，这表明起始 tRNA 作为 IF2 激活物在亚基对接中起着被动作用。GTP 酶的条件转换理论定量解释了我们所有的实验数据。我们发现，GTP、GDP、fMet-tRNA(i)和 A 型突变分别将 IF2 活性和非活性形式之间的平衡比率 K 从野生型 apo-IF2 的 4×10(-4)增加了 300、8、80 和 20 倍。A 型突变的功能特征为 IF2 和其他多结构域 GTP 酶的条件转换的结构解释提供了关键。

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