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Recent Advances in Modified Cap Analogs: Synthesis, Biochemical Properties, and mRNA Based Vaccines

Muthian Shanmugasundaram, Annamalai Senthilvelan, Anilkumar R. Kore

2022The Chemical Record73 citationsDOIOpen Access PDF

Abstract

Abstract The recent FDA approval of the mRNA vaccine for severe acute respiratory syndrome coronavirus (SARS‐CoV‐2) emphasizes the importance of mRNA as a powerful tool for therapeutic applications. The chemically modified mRNA cap analogs contain a unique cap structure, m 7 G[5′]ppp[5′]N (where N=G, A, C or U), present at the 5′‐end of many eukaryotic cellular and viral RNAs and several non‐coding RNAs. The chemical modifications on cap analog influence orientation's nature, translational efficiency, nuclear stability, and binding affinity. The recent invention of a trinucleotide cap analog provides groundbreaking research in the area of mRNA analogs. Notably, trinucleotide cap analogs outweigh dinucleotide cap analogs in terms of capping efficiency and translational properties. This review focuses on the recent development in the synthesis of various dinucleotide cap analogs such as dinucleotide containing a triazole moiety, phosphorothiolate cap, biotinylated cap, cap analog containing N1 modification, cap analog containing N2 modification, dinucleotide containing fluorescence probe and TAT, bacterial caps, and trinucleotide cap analogs. In addition, the biological applications of these novel cap analogs are delineated.

Topics & Concepts

Messenger RNAChemistryBiotinylationBiochemistryBiologyMolecular biologyGeneRNA and protein synthesis mechanismsRNA Interference and Gene DeliveryViral gastroenteritis research and epidemiology
Recent Advances in Modified Cap Analogs: Synthesis, Biochemical Properties, and mRNA Based Vaccines | Litcius