Kinetic characterization of amino acid activation by aminoacyl-tRNA synthetases using radiolabelled γ-[³²P]ATP.

IF 2.8 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY FEBS Open Bio Pub Date : 2024-09-30 DOI:10.1002/2211-5463.13903

Igor Živković, Morana Dulic, Petra Kozulic, Marko Mocibob, Ita Gruic-Sovulj

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Abstract

Aminoacyl-tRNA synthetases (AARSs) are fundamental enzymes that pair amino acids and tRNAs for protein synthesis. Aminoacylation occurs in two discrete steps. The amino acid is first activated by ATP, leading to an aminoacyl-adenylate intermediate and pyrophosphate (PP_i) formation. In a subsequent step, the aminoacyl moiety is transferred to the tRNA. Kinetic assays were developed to follow each of these steps independently, as well as cumulative two-step aminoacylation. The main advantage of following the activation step over two-step aminoacylation is that most AARSs can activate amino acids in the absence of the tRNA, the production of which is laborious. Hence, the activation step is often tested first in the kinetic analysis, including large screens exploring AARS-targeting inhibitors. Since the 1960s, the activation reaction has been routinely followed by the standard ATP/[³²P]PP_i exchange assay, which relies on the equilibrium exchange of radiolabel between PP_i and ATP using [³²P]PP_i as a labelled compound. However, this method became much less convenient when [³²P]PP_i was discontinued in 2022. As a solution, we developed a modified assay that uses easily attainable γ-[³²P]ATP as a labelled compound in the equilibrium-based assay. Using this assay, herein named the [³²P]ATP/PP_i assay, we followed the activation step of several AARSs. The obtained data are in good agreement with the previously published kinetic constants obtained with the standard ATP/[³²P]PP_i exchange assay.

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使用放射性标记的 γ-[32P]ATP 分析氨基酰-tRNA 合成酶活化氨基酸的动力学特征。

氨基酸-tRNA 合成酶（AARS）是配对氨基酸和 tRNA 以合成蛋白质的基本酶。氨基酰化分为两个不同的步骤。氨基酸首先被 ATP 激活，形成氨基酰-腺苷酸中间体和焦磷酸（PPi）。在随后的步骤中，氨基酰基被转移到 tRNA 上。开发的动力学测定法可独立跟踪每个步骤以及累积的两步氨基酰化。与两步氨酰化相比，跟踪活化步骤的主要优势在于大多数 AARS 可在没有 tRNA 的情况下活化氨基酸，而生产 tRNA 需要耗费大量人力物力。因此，在动力学分析（包括探索 AARS 靶向抑制剂的大型筛选）中，通常首先测试活化步骤。自 20 世纪 60 年代以来，活化反应通常采用标准的 ATP/[32P]PPi 交换测定法，该方法依赖于使用[32P]PPi 作为标记化合物在 PPi 和 ATP 之间进行放射性标记的平衡交换。然而，随着 2022 年[32P]PPi 的停产，这种方法变得不那么方便了。作为解决方案，我们开发了一种改进的检测方法，在基于平衡的检测中使用易于获得的γ-[32P]ATP作为标记化合物。利用这种测定方法（在此命名为[32P]ATP/PPI测定方法），我们跟踪了几种 AARS 的活化步骤。获得的数据与之前发表的用标准 ATP/[32P]PPi 交换测定法获得的动力学常数非常一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

FEBS Open Bio BIOCHEMISTRY & MOLECULAR BIOLOGY-

CiteScore

5.10

自引率

0.00%

发文量

173

审稿时长

10 weeks

期刊介绍： FEBS Open Bio is an online-only open access journal for the rapid publication of research articles in molecular and cellular life sciences in both health and disease. The journal''s peer review process focuses on the technical soundness of papers, leaving the assessment of their impact and importance to the scientific community. FEBS Open Bio is owned by the Federation of European Biochemical Societies (FEBS), a not-for-profit organization, and is published on behalf of FEBS by FEBS Press and Wiley. Any income from the journal will be used to support scientists through fellowships, courses, travel grants, prizes and other FEBS initiatives.