Covalent Linkages Used in Prebiotic Chemistry for RNA-Templated Amino Acid Transfer and Peptide Synthesis

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY
Dr. Luis Escobar
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Abstract

Biological translation is a universal process taking place in the ribosome. It involves the synthesis of a protein with a particular sequence from the information encoded in a messenger RNA and the amino acids carried by transfer RNAs with the assistance of specific enzymes. However, the origin of translation in the prebiotic world and, thus, in the absence of enzymes is difficult to envisage. Past and recent studies proposed different prebiotic models, following top-down and bottom-up approaches, for the origin and evolution of a primitive ribosome. The bottom-up models made use of distinct covalent linkages to connect RNA strands with amino acids and peptides. In this review, I focus on the covalent linkages used in these prebiotic models: acyl phosphate mixed anhydrides, phosphoramidates and ureas. I describe their syntheses under prebiotically plausible reaction conditions, as well as include their main conventional preparation methods. I also comment on their properties and chemical stabilities in aqueous solution. Finally, I examine the functions of the described covalent linkages in prebiotic processes involving RNA-templated amino acid transfer and peptide synthesis.

Abstract Image

用于 RNA 引发的氨基酸转移和多肽合成的前生物化学中的共价连接体
生物翻译是在核糖体中进行的一个普遍过程。它涉及在特定酶的协助下,将信使 RNA 中编码的信息和转移 RNA 所携带的氨基酸合成具有特定序列的蛋白质。然而,翻译起源于前生物世界,因此在没有酶的情况下很难设想。过去和最近的研究按照自上而下和自下而上的方法,为原始核糖体的起源和进化提出了不同的前生物模型。自下而上的模型利用不同的共价键将 RNA 链与氨基酸和肽连接起来。在这篇综述中,我将重点介绍这些前生物模型中使用的共价键:酰基磷酸混合酸酐、磷酰胺和脲。我描述了它们在前生物合理反应条件下的合成过程,并介绍了它们的主要传统制备方法。我还对它们在水溶液中的性质和化学稳定性进行了评论。最后,我研究了所述共价连接在涉及 RNA 引发的氨基酸转移和肽合成的前生物过程中的功能。
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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CiteScore
7.00
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