Integrating PDA microtube waveguide system with heterogeneous CHA amplification strategy towards superior sensitive detection of miRNA

Catalytic hairpin assembly (CHA) is a typical enzyme-free amplification strategy, in which the target can catalyze two hairpin probes to form a duplex and yield multiple outputs signal. However, the non-specific hybridization of two hairpin probes in CHA circuit usually occurred even in the absence...

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Bibliographic Details
Published in:Biosensors & bioelectronics 2019-03, Vol.129, p.50-57
Main Authors: He, Chenlu, Wang, Mengqiao, Sun, Xianbao, Zhu, Yu, Zhou, Xiang, Xiao, Shiyan, Zhang, Qijin, Liu, Funing, Yu, Yue, Liang, Haojun, Zou, Gang
Format: Article
Language:English
Subjects:
Biosensing
Heterogeneous catalytic hairpin assembly
MicroRNA
Optical waveguide
Polydiacetylene
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Summary:Catalytic hairpin assembly (CHA) is a typical enzyme-free amplification strategy, in which the target can catalyze two hairpin probes to form a duplex and yield multiple outputs signal. However, the non-specific hybridization of two hairpin probes in CHA circuit usually occurred even in the absence of target, causing significant background leakage and impeding its practical applications in trace miRNA analysis. Herein, we proposed a novel heterogeneous CHA (hetero-CHA) design integrating with PDA microtube waveguide system, offering the advantages to enhance the target signal, but suppress the background leakage simultaneously. In hetero-CHA strategy, single-stranded targets are enriched nearby the surface of PDA microtube, facilitating the target-triggered CHA amplification and strand displacement reactions. In contrast, double-stranded DNA complexes formed by uncatalyzed hybridizations are isolated from PDA microtube, impeding the leakage signal. By combination with condensing enrichment effect, the proposed hetero-CHA probe exhibited high selectivity and sensitivity to miRNA target, giving a detection limit as low as 3.3 fM. More importantly, the proposed hetero-CHA probe can be applied directly to distinguish the expression of miRNA-21 in clinical serum of cancer patients (including lung, breast and pancreatic) from those of healthy human beings, favoring the cancer diagnosis and therapeutic evaluation. •A heterogeneous CHA design intergrating with 1D microtube waveguide system.•The fluorescence excitation and readout positions are separeted, helpful in reducing the background leakage.•Combination with condensing enrichment effect.•Hetero-CHA probe exhibited a detection limit as low as 3.3 fm to miRNA target.•Applied directly to distinguish the expression of miRNA-21 in clinical serum.
ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2019.01.003