Improved RE31 Analogues Containing Modified Nucleic Acid Monomers: Thermodynamic, Structural, and Biological Effects

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Authors
Scotton, C. J.
Journal
Journal of Medicinal Chemistry
Type
Journal Article
Publisher
American Chemical Society
Rights
Copyright © 2019, American Chemical Society
RE31 is a 31-nt DNA aptamer, consisting of the G-quadruplex and a duplex domain, which is able to effectively prolong thrombin time. This article reports on the influence of certain modified nucleotide residues on thermodynamic and biological properties as well as the folding topology of RE31. Particularly, the effect of the presence of nucleosides in unlocked nucleic acid (UNA), locked nucleic acid (LNA), or β-l-RNA series was evaluated. The studies presented herein show that all modified residues can influence thermal and biological stabilities of G-quadruplex in a position-dependent manner. The aptamers modified simultaneously with UNA at the T15 position and LNAs in the duplex part possess the highest value of melting temperature and a 2-fold higher anticoagulant effect. Importantly, RE31 variants modified with nucleosides in UNA, LNA, or β-l-RNA series exhibit unchanged G-quadruplex folding topology. Crucially, introduction of any of the modified residues into RE31 causes prolongation of aptamer stability in human serum.
Citation
Kotkowiak W et al. Improved RE31 Analogues Containing Modified Nucleic Acid Monomers: Thermodynamic, Structural, and Biological Effects. J Med Chem. 2019 Mar 14;62(5):2499-2507. doi: 10.1021/acs.jmedchem.8b01806. Epub 2019 Feb 22. PMID: 30735377.
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