Advances in the Enzymatic Synthesis of Nucleoside-5′-Triphosphates and Their Analogs

Abstract

Nucleoside-5′-triphosphates (5′-NTPs) are essential building blocks of nucleic acids in nature and play an important role in molecular biology, diagnostics, and mRNA therapeutic synthesis. Chemical synthesis has long been the standard method for producing modified 5′-NTPs. However, chemical routes face limitations, including low regio- and stereoselectivity, along with the need for protection/deprotection cycles, resulting in low yields, high costs, and lengthy processes. In contrast, enzymatic synthesis methods offer significant advantages, such as improved regio- and stereoselectivity and the use of mild reaction conditions, which often leads to higher product yields in “one-pot” reactions. Despite the extensive review of chemical synthesis routes for 5′-NTPs, there has not yet been any comprehensive analysis of enzymatic approaches. Initially, this review provides a brief overview of the enzymes involved in nucleotide metabolism, introducing valuable biocatalysts for 5’-NTP synthesis. Furthermore, the available enzymatic methods for efficient 5′-NTP synthesis using purified enzymes and starting from either nucleobases or nucleosides are examined, highlighting their respective advantages and disadvantages. Special attention is also given to the importance of ATP regeneration systems for 5′-NTP synthesis. We aim to demonstrate the remarkable potential of enzymatic in vitro cascade reactions, promoting their broader application in both basic research and industry.