A label-free and ultrasensitive electrochemical biosensor using hybrid polypyrrole/gold nanoelectrocatalyst mediated signal amplification for the detection of miRNA-21

Abstract

The quantitative detection of microRNAs (miRNAs) is crucial for the diagnosis of cancers, while the traditional methods involve complicated procedures and restricted signal gain. In this study, we have established an ultrasensitive electrochemical biosensor by combining a target-induced hybridization reaction and signal amplification strategy for the detection of miRNA-21. The signal amplification is achieved through employing double-stranded DNA as scaffolds for methylene blue (MB) and using a polypyrrole@gold nanocomposite (ppy@AuNPs) as the electrochemical catalyst for further enhancing the signal. Therefore, this proposed electrochemical platform displayed an analytical performance with a wide linear range from 10 fM to 100 nM and a low detection limit down to 5.4 fM. The excellent selectivity allows the biosensor to discriminate miRNA-21 from other miRNAs, even the one base-mismatched sequence. Moreover, this nanoelectrocatalyst-based platform exhibited good reproducibility and remarkable storage stability, which shows great potential for miRNA-21 detection.