Issue 83, 2024

Versatility of threose nucleic acids: synthesis, properties, and applications in chemical biology and biomedical advancements

Abstract

This feature article delves into the realm of α-L-threose nucleic acid (TNA), an artificial nucleic acid analog characterized by a backbone comprising an unconventional four-carbon sugar, α-L-threose, with phosphodiester linkages connecting at the 2′ and 3′ vicinal positions of the sugar ring. Within this article, we encapsulate the potential, progress, current state of the art, and persisting challenges within TNA research. Kicking off with a historical overview of xeno nucleic acids (XNAs), the discussion transitions to the compelling attributes and structure–property relationships of TNAs as advanced tools when contrasted with natural nucleic acids. Noteworthy aspects such as their advantageous spatial arrangements of functional groups around the sugar ring, stable Watson–Crick base pairing, high binding affinity, biostability, biocompatibility, and in vivo bio-safety are highlighted. Moreover, the narrative unfolds the latest advancements in chemical and biological methodologies for TNA synthesis, spanning from monomer and oligomer synthesis to polymerization, alongside cutting-edge developments in enzyme engineering aimed at bolstering large-scale TNA synthesis for in vitro selection initiatives. The article sheds light on the evolution of TNA aptamers over time, expounding on the tools and selection techniques engineered to unearth superior binding aptamers and TNA catalysts. Furthermore, the article accentuates the recent applications of TNAs across diverse domains such as molecular detection, immunotherapy, gene therapy, synthetic biology, and molecular computing. In conclusion, we summarize the key aspects of recent TNA research, address persisting gaps and challenges, and provide crucial insights and future perspectives in the dynamic domain of TNA research.

Graphical abstract: Versatility of threose nucleic acids: synthesis, properties, and applications in chemical biology and biomedical advancements

Article information

Article type
Feature Article
Submitted
30 Aug 2024
Accepted
13 Sep 2024
First published
18 Sep 2024

Chem. Commun., 2024,60, 11864-11889

Versatility of threose nucleic acids: synthesis, properties, and applications in chemical biology and biomedical advancements

D. Y. Tam, P. Li, L. S. Liu, F. Wang, H. M. Leung and P. K. Lo, Chem. Commun., 2024, 60, 11864 DOI: 10.1039/D4CC04443F

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