Abstract
MicroRNAs (miRNAs) have emerged as powerful biomarkers for various diseases diagnosis, yet their clinical application is greatly plagued by the lack of reliable and rapid detection methods. Here, a simple, fast, and accurate point-of-care testing (POCT) platform for miRNA-155 detection was developed by interfacing self-primer exponential amplification reaction (SPEXPAR) with colorimetric and POCT lateral flow assay (LFA). In this platform, a hairpin template was designed for exponential amplification reaction, which could effectively avoid nonspecific template interactions and eventually effectively avoid undesirable background amplification; the colorimetric assay is based on the SPEXPAR amplicons induced gold nanoparticles (AuNPs) color change; and the LFA detection principle involves the amplicons hybridization with designed probes. Under the optimized conditions, the colorimetric assay could detect miRNA-155 as low as 0.41 pM in less than 35 min; and LFA could detect as low as 100 pM in less than 40 min. Furthermore, the method was adopted to detect miRNA-155 in human serum samples with satisfactory recoveries. In summary, this study offered a promising analytical tool for molecular diagnostic testing application.
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