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基于 X 射线晶体结构的多位点特异性 tRNA 甲基转移酶,A. aeolicus Trm1 对底物 tRNA 的识别机制。

Substrate tRNA recognition mechanism of a multisite-specific tRNA methyltransferase, Aquifex aeolicus Trm1, based on the X-ray crystal structure.

机构信息

Department of Materials Science and Biotechnology, Graduate School of Science and Engineering, Ehime University, Bunkyo 3, Matsuyama, Ehime 790-8577, Japan.

出版信息

J Biol Chem. 2011 Oct 7;286(40):35236-46. doi: 10.1074/jbc.M111.253641. Epub 2011 Aug 15.

DOI:10.1074/jbc.M111.253641
PMID:21844194
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3186374/
Abstract

Archaeal and eukaryotic tRNA (N(2),N(2)-guanine)-dimethyltransferase (Trm1) produces N(2),N(2)-dimethylguanine at position 26 in tRNA. In contrast, Trm1 from Aquifex aeolicus, a hyper-thermophilic eubacterium, modifies G27 as well as G26. Here, a gel mobility shift assay revealed that the T-arm in tRNA is the binding site of A. aeolicus Trm1. To address the multisite specificity, we performed an x-ray crystal structure study. The overall structure of A. aeolicus Trm1 is similar to that of archaeal Trm1, although there is a zinc-cysteine cluster in the C-terminal domain of A. aeolicus Trm1. The N-terminal domain is a typical catalytic domain of S-adenosyl-l-methionine-dependent methyltransferases. On the basis of the crystal structure and amino acid sequence alignment, we prepared 30 mutant Trm1 proteins. These mutant proteins clarified residues important for S-adenosyl-l-methionine binding and enabled us to propose a hypothetical reaction mechanism. Furthermore, the tRNA-binding site was also elucidated by methyl transfer assay and gel mobility shift assay. The electrostatic potential surface models of A. aeolicus and archaeal Trm1 proteins demonstrated that the distribution of positive charges differs between the two proteins. We constructed a tRNA-docking model, in which the T-arm structure was placed onto the large area of positive charge, which is the expected tRNA-binding site, of A. aeolicus Trm1. In this model, the target G26 base can be placed near the catalytic pocket; however, the nucleotide at position 27 gains closer access to the pocket. Thus, this docking model introduces a rational explanation of the multisite specificity of A. aeolicus Trm1.

摘要

古菌和真核生物 tRNA(N(2),N(2)-鸟嘌呤)-二甲基转移酶(Trm1)在 tRNA 中第 26 位产生 N(2),N(2)-二甲基鸟嘌呤。相比之下,来自嗜热古菌 Aquifex aeolicus 的 Trm1 还修饰 G27 以及 G26。在这里,凝胶迁移率变动分析显示 tRNA 的 T 臂是 A.aeolicus Trm1 的结合位点。为了解决多定位特异性问题,我们进行了 X 射线晶体结构研究。尽管 A.aeolicus Trm1 的 C 端结构域中存在锌-半胱氨酸簇,但 A.aeolicus Trm1 的整体结构与古菌 Trm1 相似。N 端结构域是 S-腺苷甲硫氨酸依赖的甲基转移酶的典型催化结构域。基于晶体结构和氨基酸序列比对,我们制备了 30 种突变 Trm1 蛋白。这些突变蛋白阐明了对 S-腺苷甲硫氨酸结合重要的残基,并使我们能够提出一个假设的反应机制。此外,通过甲基转移测定和凝胶迁移率变动分析还阐明了 tRNA 结合位点。A.aeolicus 和古菌 Trm1 蛋白的静电势表面模型表明,两种蛋白的正电荷分布不同。我们构建了一个 tRNA 对接模型,其中 T 臂结构放置在 A.aeolicus Trm1 的大的正电荷区域上,这是预期的 tRNA 结合位点。在该模型中,靶标 G26 碱基可以靠近催化口袋放置;然而,第 27 位的核苷酸更接近口袋。因此,该对接模型为 A.aeolicus Trm1 的多定位特异性引入了一个合理的解释。

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