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Formation of left-handed helices by C2′-fluorinated nucleic acids under physiological salt conditions

Roberto El-Khoury, Cristina Cabrero, Santiago Movilla, Harneesh Kaur, David R. Friedland, Arnau Domínguez, James D. Thorpe, Morgane Roman, Modesto Orozco, Carlos González, Masad J. Damha

2024Nucleic Acids Research10 citationsDOIOpen Access PDF

Abstract

Recent findings in cell biology have rekindled interest in Z-DNA, the left-handed helical form of DNA. We report here that two minimally modified nucleosides, 2'F-araC and 2'F-riboG, induce the formation of the Z-form under low ionic strength. We show that oligomers entirely made of these two nucleosides exclusively produce left-handed duplexes that bind to the Zα domain of ADAR1. The effect of the two nucleotides is so dramatic that Z-form duplexes are the only species observed in 10 mM sodium phosphate buffer and neutral pH, and no B-form is observed at any temperature. Hence, in contrast to other studies reporting formation of Z/B-form equilibria by a preference for purine glycosidic angles in syn, our NMR and computational work revealed that sequential 2'F…H2N and intramolecular 3'H…N3' interactions stabilize the left-handed helix. The equilibrium between B- and Z- forms is slow in the 19F NMR time scale (≥ms), and each conformation exhibited unprecedented chemical shift differences in the 19F signals. This observation led to a reliable estimation of the relative population of B and Z species and enabled us to monitor B-Z transitions under different conditions. The unique features of 2'F-modified DNA should thus be a valuable addition to existing techniques for specific detection of new Z-binding proteins and ligands.

Topics & Concepts

Z-DNAGlycosidic bondLeft handedNucleic acidDNABiologyIntramolecular forceCircular dichroismHelix (gastropod)NucleotideCrystallographyNuclear magnetic resonance spectroscopyIonic strengthStereochemistryPopulationBiochemistryEnzymeChemistryOpticsEcologySociologyDemographyPhysicsSnailGeneAqueous solutionPhysical chemistryDNA and Nucleic Acid ChemistryRNA and protein synthesis mechanismsAdvanced biosensing and bioanalysis techniques
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