Developing isothermal bio-analyzers for amplified detection of multi-factor diseases like cancer biomarkers (nucleic acid and protein) has facilitated the early diagnosis and clinical theranostics. In light of that, a sensitive detection system was developed assisted by the recognition capability of a functional aptamer followed by cyclic self-assembly of three auxiliary hairpins via branched hybridization chain reaction (b-HCR) performance. In the downstream process, in the presence of hemin, split sequences of a DNAzyme brought in close proximity to facilitate the color alteration of the solution to a green appearance. By ingenious exerting multi-level amplification, the assay empowered sensitive detection of miR-21 and PDGF-BB related cancer biomarkers with LOD values of 10 pM and 40 nM, respectively. Taken together, simplicity, enzyme-free nature, excellent generality, affordable cost without any washing steps and immobilization makes the presented system a promising analytical tool in synthetic biology, designing nanomachines and point-of-care detection in resource-constrained settings.
Keywords: Aptamer; Binary detection; Biomarkers; DNAzyme; Hybridization chain reaction.
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