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Pushing Adenosine and ATP SELEX for DNA Aptamers with Nanomolar Affinity

Yuzhe Ding, Juewen Liu

2023Journal of the American Chemical Society117 citationsDOIOpen Access PDF

Abstract

The classical DNA aptamer for adenosine and ATP has been the most used small molecule binding aptamer for biosensing, imaging, and DNA nanotechnology. This sequence has recurred multiple times in previous aptamer selections, and all previous selections used a high concentration of ATP as the target. Herein, two separate selections were performed using adenosine and ATP as targets. By pushing the target concentrations down to the low micromolar range, two new aptamers with K d as low as 230 nM were obtained, showing around 30-fold higher affinity compared to the classical aptamer. The classical aptamer sequence still dominated the library in the early rounds of the selections, but it was suppressed in the later rounds. The new aptamers bind to one target molecule instead of two. Mutation studies confirmed their secondary structures and specific binding. Using the deep sequencing data from the selections, long-standing questions such as the existence of one-site aptamers and mutation distribution in the classical aptamer were addressed. Comparisons were made with previously reported DNA aptamers for ATP. Finally, a strand-displacement biosensor was tested showing selectivity for adenosine and its nucleotides.

Topics & Concepts

AptamerSystematic evolution of ligands by exponential enrichmentChemistryDNAAdenosineNucleic acidNucleotideSmall moleculeBiosensorBiochemistryBiophysicsMolecular biologyRNAGeneBiologyAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryDNA and Nucleic Acid Chemistry