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追溯谷氨酰胺-tRNA合成酶中氨基酸特异性的演变

Retracing the evolution of amino acid specificity in glutaminyl-tRNA synthetase.

作者信息

Hong K W, Ibba M, Söll D

机构信息

Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, CT 06520-8114, USA.

出版信息

FEBS Lett. 1998 Aug 28;434(1-2):149-54. doi: 10.1016/s0014-5793(98)00968-5.

Abstract

Molecular phylogenetic studies of glutaminyl-tRNA synthetase suggest that it has relatively recently evolved from the closely related enzyme glutamyl-tRNA synthetase. We have now attempted to retrace one of the key steps in this process by selecting glutaminyl-tRNA synthetase mutants displaying enhanced glutamic acid recognition. Mutagenesis of two residues proximal to the active site, Phe-90 and Tyr-240, was found to improve glutamic acid recognition 3-5-fold in vitro and resulted in the misacylation of tRNA(Gln) with glutamic acid. In vivo expression of the genes encoding these misacylating variants of glutaminyl-tRNA synthetase reduced cellular growth rates by 40%, probably as a result of an increase in translational error rates. These results provide the first biochemical evidence that glutaminyl-tRNA synthetase originated through duplication and consequent diversification of an ancestral glutamyl-tRNA synthetase-encoding gene.

摘要

谷氨酰胺-tRNA合成酶的分子系统发育研究表明,它是相对较近才从密切相关的谷氨酸-tRNA合成酶进化而来的。我们现在试图通过选择显示出增强的谷氨酸识别能力的谷氨酰胺-tRNA合成酶突变体来追溯这一过程中的关键步骤之一。活性位点附近的两个残基,即苯丙氨酸-90和酪氨酸-240的诱变,在体外被发现可将谷氨酸识别能力提高3至5倍,并导致谷氨酰胺tRNA被谷氨酸错误酰化。编码这些谷氨酰胺-tRNA合成酶错误酰化变体的基因在体内表达使细胞生长速率降低了40%,这可能是翻译错误率增加的结果。这些结果提供了首个生化证据,表明谷氨酰胺-tRNA合成酶起源于祖先谷氨酸-tRNA合成酶编码基因的复制及随后的多样化。

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