Prebiotic N-(2-Aminoethyl)-Glycine (AEG)-Assisted Synthesis of Proto-RNA?

IF 2.1 3区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Molecular Evolution Pub Date : 2024-08-01 Epub Date: 2024-07-25 DOI:10.1007/s00239-024-10185-w

Lázaro A M Castanedo, Chérif F Matta

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Abstract

Quantum mechanical calculations are used to explore the thermodynamics of possible prebiotic synthesis of the building blocks of nucleic acids. Different combinations of D-ribofuranose (Ribf) and N-(2-aminoethyl)-glycine (AEG) (trifunctional connectors (TCs)); the nature of the Ribf, its anomeric form, and its ring puckering (conformation); and the nature of the nucleobases (recognition units (RUs)) are considered. The combinatorial explosion of possible nucleosides has been drastically reduced on physicochemical grounds followed by a detailed thermodynamic evaluation of alternative synthetic pathways. The synthesis of nucleosides containing N-(2-aminoethyl)-glycine (AEG) is predicted to be thermodynamically favored suggesting a possible role of AEG as a component of an ancestral proto-RNA that may have preceded today's nucleic acids. A new pathway for the building of free nucleotides (exemplified by 5'-uridine monophosphate (UMP)) and of AEG dipeptides is proposed. This new pathway leads to a spontaneous formation of free UMP assisted by an AEG nucleoside in an aqueous environment. This appears to be a workaround to the "water problem" that prohibits the synthesis of nucleotides in water.

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N-(2-Aminoethyl)-Glycine (AEG)辅助原 RNA 的益生元合成？

量子力学计算用于探索核酸构建模块可能的前生物合成的热力学。研究考虑了 D-呋喃核糖（Ribf）和 N-(2-氨基乙基)-甘氨酸（AEG）（三官能团连接体（TC））的不同组合；Ribf 的性质、异构体形式及其环状皱褶（构象）；以及核碱基（识别单元（RU））的性质。根据物理化学原理，核苷可能出现的组合爆炸已大大减少，随后对替代合成途径进行了详细的热力学评估。据预测，含有 N-（2-氨基乙基）-甘氨酸（AEG）的核苷的合成在热力学上是有利的，这表明 AEG 可能是祖先原核糖核酸（RNA）的一个组成部分，可能早于今天的核酸。研究人员提出了一种新的游离核苷酸（以 5'- 尿苷单磷酸（UMP）为例）和 AEG 二肽的生成途径。在水环境中，在 AEG 核苷的辅助下，这种新途径可导致游离 UMP 的自发形成。这似乎是解决禁止在水中合成核苷酸的 "水问题 "的一种方法。

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来源期刊

Journal of Molecular Evolution 生物-进化生物学

CiteScore

5.50

自引率

2.60%

发文量

审稿时长

3 months

期刊介绍： Journal of Molecular Evolution covers experimental, computational, and theoretical work aimed at deciphering features of molecular evolution and the processes bearing on these features, from the initial formation of macromolecular systems through their evolution at the molecular level, the co-evolution of their functions in cellular and organismal systems, and their influence on organismal adaptation, speciation, and ecology. Topics addressed include the evolution of informational macromolecules and their relation to more complex levels of biological organization, including populations and taxa, as well as the molecular basis for the evolution of ecological interactions of species and the use of molecular data to infer fundamental processes in evolutionary ecology. This coverage accommodates such subfields as new genome sequences, comparative structural and functional genomics, population genetics, the molecular evolution of development, the evolution of gene regulation and gene interaction networks, and in vitro evolution of DNA and RNA, molecular evolutionary ecology, and the development of methods and theory that enable molecular evolutionary inference, including but not limited to, phylogenetic methods.