Abstract
The systematic evolution of ligands by exponential enrichment (SELEX) process enables the isolation of aptamers from random oligonucleotide libraries. However, it is generally difficult to identify the best aptamer from the resulting sequences, and the selected aptamers often exhibit suboptimal affinity and specificity. Post-SELEX aptamer engineering can improve aptamer performance, but current methods exhibit inherent bias and variable rates of success or require specialized instruments. Here, we describe a generalizable method that utilizes exonuclease III and exonuclease I to interrogate the binding properties of small-molecule-binding aptamers in a rapid, label-free assay. By analyzing an ochratoxin-binding DNA aptamer and six of its mutants, we determined that ligand binding alters the exonuclease digestion kinetics to an extent that closely correlates with the aptamer's ligand affinity. We then utilized this assay to enhance the binding characteristics of a DNA aptamer which binds indiscriminately to ATP, ADP, AMP, and adenosine. We screened 13 mutants derived from this aptamer against all these analogues and identified two new high-affinity aptamers that solely bind to adenosine. We incorporated these two aptamers directly into an electrochemical aptamer-based sensor, which achieved a detection limit of 1 μM adenosine in 50% serum. We also confirmed the generality of our method to characterize target-binding affinities of protein-binding aptamers. We believe our approach is generalizable for DNA aptamers regardless of sequence, structure, and length and could be readily adapted into an automated format for high-throughput engineering of small-molecule-binding aptamers to acquire those with improved binding properties suitable for various applications.
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