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High-throughput quantitative binding analysis of DNA aptamers using exonucleases

NCJ Number
306065
Journal
Nucleic Acids Research Volume: 51 Issue: 4 Dated: 28 February 2023 Pages: e19
Author(s)
Juan Canoura; Obtin Alkhamis; Yingzhu Liu; Connor Willis; Yi Xiao
Date Published
2023
Length
16 pages
Annotation

Since aptamers are nucleic acid bioreceptors that have been used in various applications, including medical diagnostics and as therapeutic agents. Identifying the most optimal aptamer for a particular application is very challenging, so in the current project, the authors, for the first time, have developed a high-throughput method for accurately quantifying aptamer binding affinity, specificity, and cross-reactivity via the kinetics of aptamer digestion by exonucleases.

 

Abstract

The authors demonstrate the utility of this approach by isolating a set of new aptamers for fentanyl and its analogs, and then characterizing the binding properties of 655 aptamer–ligand pairs using their exonuclease. They demonstrate the utility of this approach by isolating a set of new aptamers for fentanyl and its analogs, and then characterizing the binding properties of 655 aptamer–ligand pairs using their exonuclease digestion assay and validating the results with gold-standard methodologies. These data were used to select optimal aptamers for the development of new sensors that detect fentanyl and its analogs in different analytical contexts. This approach dramatically accelerates the aptamer characterization process and streamlines sensor development, and if coupled with robotics, could enable high-throughput quantitative analysis of thousands of aptamer–ligand pairs. (Published abstract provided)