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  • Title: An innovative "unlocked mechanism" by a double key avenue for one-pot detection of microRNA-21 and microRNA-141.
    Author: Peng W, Zhao Q, Chen M, Piao J, Gao W, Gong X, Chang J.
    Journal: Theranostics; 2019; 9(1):279-289. PubMed ID: 30662567.
    Abstract:
    The accurate and quantitative detection of microRNAs (miRNAs) as next-generation, reliable biomarkers will provide vital information for cancer research and treatment. However, their unique, intrinsic features pose quite a challenge for miRNA profiling, especially for multiplexed detection. Thus, there is a strong and an ever-growing need to develop an accurate, simple, sensitive and specific miRNA sensing method. Methods: In this study, a simple and novel sensor is presented that uses a flow cytometry (FCM) method based on the double key "unlocked mechanism" and a fluorescence enrichment signal amplification strategy. The "unlocked mechanism" was cleverly designed via using hairpin DNA probes (HDs) labeled by fluorescent particles (FS) as the lock to block part of them, which can specifically hybridize with the probe on polystyrene microparticles (PS). The target miRNA and duplex-specific nuclease (DSN) forming the double key can specifically open the HDs and cleave a single-stranded DNA (ssDNA) into DNA/RNA dimers circularly in order to unlock the special part of the HDs to be specially enriched further on the PS. Results: The designed sensor with a hairpin structure and DSN special performance was found to have a high specificity. The circularly unlocking fluorescent probes and fluorescent signal enrichment can be beneficial for achieving a high sensitivity with a detection limit of 3.39 fM for miRNA-21. Meanwhile, the performance of multiplexing was estimated by simultaneous detection of miR-21 and miR-141, and the method also allowed for miR-21 detection in breast cancer blood samples. Conclusion: The designed sensor based on an "unlocked mechanism" and a signal enrichment strategy resulted in a one-pot, highly specific and sensitive detection of multiplex miRNAs. The whole detection without the need for a complex purification process is based on a FCM and is expected to have a great value in cancer diagnosis and biomedical research.
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