High-throughput quantitative binding analysis of DNA aptamers using exonucleases

Author:

Canoura Juan12,Alkhamis Obtin1,Liu Yingzhu1,Willis Connor1,Xiao Yi12ORCID

Affiliation:

1. Department of Chemistry, North Carolina State University , 2620 Yarbrough Drive , Raleigh , NC 27607 , USA

2. Department of Chemistry and Biochemistry, Florida International University , 11200 SW 8th Street , Miami , FL 33199 , USA

Abstract

AbstractAptamers 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. Here, we 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. We 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 our 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. Our 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.

Funder

National Institute of Justice

U.S. Department of Justice

National Science Foundation

Publisher

Oxford University Press (OUP)

Subject

Genetics

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