Structural insight into the recognition of amino-acylated initiator tRNA by eIF5B in the 80S initiation complex

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology BMC Structural Biology Pub Date : 2014-09-17 DOI:10.1186/s12900-014-0020-2
Bernhard Kuhle, Ralf Ficner
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引用次数: 11

Abstract

From bacteria to eukarya, the specific recognition of the amino-acylated initiator tRNA by the universally conserved translational GTPase eIF5B/IF2 is one of the most central interactions in the process of translation initiation. However, the molecular details, particularly also in the context of ribosomal initiation complexes, are only partially understood.

A reinterpretation of the 6.6 ? resolution cryo-electron microscopy (cryo-EM) structure of the eukaryal 80S initiation complex using the recently published crystal structure of eIF5B reveals that domain IV of eIF5B forms extensive interaction interfaces with the Met-tRNAi, which, in contrast to the previous model, directly involve the methionylated 3′ CCA-end of the acceptor stem. These contacts are mediated by a conserved surface area, which is homologous to the surface areas mediating the interactions between IF2 and fMet-tRNAfMet as well as between domain II of EF-Tu and amino-acylated elongator tRNAs.

The reported observations provide novel direct structural insight into the specific recognition of the methionylated acceptor stem by eIF5B domain IV and demonstrate its universality among eIF5B/IF2 orthologs in the three domains of life.

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在80S起始复合物中eIF5B对氨基酰化启动物tRNA的识别结构
从细菌到真核生物,普遍保守的翻译GTPase eIF5B/IF2对氨基酰化启动物tRNA的特异性识别是翻译起始过程中最核心的相互作用之一。然而,分子的细节,特别是在核糖体起始复合物的背景下,只是部分理解。6.6 ?利用最近发表的eIF5B晶体结构对真核80S起始复合物的分辨率冷冻电镜(cro - em)结构显示,eIF5B的结构域IV与Met-tRNAi形成广泛的相互作用界面,与之前的模型相反,直接涉及受体链的甲基化3 ' cca端。这些接触是由一个保守的表面积介导的,这与IF2和fMet-tRNAfMet之间以及EF-Tu的结构域II和氨基酰化的长链trna之间的相互作用的表面积是同源的。报告的观察结果为eIF5B结构域IV对蛋氨酸化受体系统的特异性识别提供了新的直接结构见解,并证明了其在eIF5B/IF2同源物中在生命的三个领域中的普遍性。
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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
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0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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