An Aminoisoxazole-Based Proto-RNA

ChemistryEurope Pub Date : 2023-10-12 DOI:10.1002/ceur.202300057

Felix Xu, Dr. Stefan Wiedemann, Dr. Jonas Feldmann, Dr. Sidney Becker, Prof. Dr. Thomas Carell

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Abstract

The RNA world hypothesis predicts that life started with the development of replicating and catalytically active RNA, which evolved in a process of molecular evolution to increasingly complex chemical structures. RNA is, however, so complex that it has most likely formed from a precursor (proto-RNA) that was more easily accessible in a prebiotic world. Recently, 3-aminoisoxazoles (IO3) were identified as building blocks that can form under prebiotic conditions and can rearrange to give the nucleoside cytidine (C). The present study shows that the constitutional isomer 5-aminoisoxazole (IO5) can undergo the same reaction to give uridine (U). Both compounds (IO3 and IO5), if embedded in RNA, react selectively to C and U, which are the main pyrimidine nucleosides of the genetic system. Importantly, the stereochemical outcome of the IO5 reaction in RNA depends on the neighboring bases. If they are β-configured RNA nucleosides, the reaction proceeds with high selectivity to give exclusively the β-configured U RNA base (anomeric control).

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基于氨基异恶唑的原rna

RNA世界假说认为，生命始于具有复制能力和催化活性的RNA的出现，并在分子进化过程中进化为越来越复杂的化学结构。然而，RNA是如此复杂，它很可能是由在益生元世界中更容易获得的前体(原RNA)形成的。最近，3 -氨基异恶唑(IO3)被确定为在益生元条件下形成的构建块，并可以重新排列产生核苷胞苷(C)。本研究表明，构形异构体5 -氨基异恶唑(IO5)可以进行相同的反应产生尿苷(U)。如果嵌入RNA中，这两种化合物(IO3和IO5)都可以选择性地与遗传系统的主要嘧啶核苷C和U发生反应。重要的是，RNA中IO5反应的立体化学结果取决于邻近的碱基。如果它们是β配置的RNA核苷，则反应以高选择性进行，只产生β配置的U RNA碱基(异构体对照)。

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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