# Synthesis of Nucleoside Derivatives by Biomimetic Ester Migration

**Authors:** Nathalie J. Kurrle, Christoph J. B. Seifert, Nathalie Hampel, Tamara Rauch, Michael Thoma, Luca V. Parziale, Marian S. R. Ebeling, Dino Berthold, Oliver Trapp

PMC · DOI: 10.1002/cbic.202500395 · 2025-06-19

## TL;DR

This paper presents a biomimetic method to synthesize nucleoside derivatives with high yields, which could be useful in medicinal chemistry and understanding the origin of life.

## Contribution

A concise three-step biomimetic synthesis of nucleosidic amino acid esters with high yields and regio-control is introduced.

## Key findings

- A three-step synthesis using 2′-3′-transaminoacylation produces nucleosidic amino acid esters in high yields.
- The method is expanded to sulfonic acid esters, enabling stereo- and regio-controlled modifications of nucleosides.
- This approach avoids regioisomeric mixtures and isomerization challenges in nucleoside synthesis.

## Abstract

Modified nucleosides play important roles as agents in medicinal chemistry due to their anti‐inflammatory, antiviral, and antiproliferative properties, as well as in biochemical processes like protein biosynthesis. Aminoacylated nucleosides in tRNA represent the central transfer unit of amino acids in the biosynthesis of peptides. Consequently, their synthesis in a prebiotic context is of great significance for further elucidations regarding the origin of life. To verify the formation of these structures in complex mixtures of regio‐ and stereoisomers, reference structures and their synthesis are of fundamental importance. However, state‐of‐the‐art methodologies for the synthesis of monomeric tRNA nucleoside derivatives frequently result in the production of regioisomeric mixtures or encounter challenges related to isomerization. In this context, a concise and comprehensive approach for the chemical synthesis of nucleosidic amino acid esters is presented. The three‐step reaction sequence exploits the phenomenon of 2′‐3′‐transaminoacylation in nucleosides providing the desired compounds in high yields. This biomimetic approach is further expanded to the activation of hydroxy groups by application of sulfonic acid esters. This has the potential to facilitate extensive modification via substitution or cross‐coupling reactions, enabling the stereo‐ and regio‐controlled transformation of nucleosides into valuable target molecules or precursors in medicinal chemistry.

In tRNA aminoacylated nucleosides represent the central transfer unit of amino acids. An occurring 2′‐3′‐transaminoacylation is biomimetically exploited to successfully synthesize nucleosidic acid esters. This approach can be further expanded on sulfonic acid esters, which has the potential of a broad range of stereo‐ and regio‐controlled modifications of nucleosides, resulting in precursors or target molecules in medicinal chemistry.© 2025 WILEY‐VCH GmbH

## Full-text entities

- **Diseases:** inflammatory (MESH:D007249)
- **Chemicals:** nucleosides (MESH:D009705), Aminoacylated nucleosides (-), amino acids (MESH:D000596)

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12278338/full.md

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Source: https://tomesphere.com/paper/PMC12278338