Rapid screening of aptamers for fluorescent targets by integrated digital PCR and flow cytometry.

Abstract

In this paper, we report the development of a new strategy termed integrated digital PCR-fluorescence activated sorting based SELEX (IFS-SELEX) that enables rapid screening of aptamers against fluorescent targets. Initially, this strategy employs an integrated digital PCR system to amplify each sequence of a preliminarily enriched library, which is obtained by a traditional SELEX method, on the surface of polystyrene beads. Then, the as-prepared beads are incubated with the fluorescent target and then subjected to fluorescence-activated sorting. Since only those sequences with high binding affinity for the target are collected and sequenced, unnecessary analysis of ineligible sequences is avoided by this method, and the aptamer selection process is thereby greatly streamlined. As a proof-of-concept, we applied this strategy for the screening of aptamers against two fluorescent targets, i.e., ciprofloxacin (CFX) and thioflavin T (ThT), and successfully obtained corresponding sequences with low dissociation constants. The binding affinities of aptamers for ThT were well associated with the sorting regions defined in the fluorescence channel of the flow cytometry process. The experimental results demonstrated that the as-designed IFS-SELEX method can serve as a universal platform for rapid, facile, and efficient aptamer selection against various fluorescent targets.