2021
DOI: 10.1007/s00604-021-04815-z
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Target-swiped DNA lock for electrochemical sensing of miRNAs based on DNAzyme-assisted primer-generation amplification

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Cited by 6 publications
(3 citation statements)
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“…The long-chain DNA produced by RCA can be combined with more signal probes to multiply the detection signal. Wang et al developed a nucleic acid lock (NAL) nanostructure and combined NAL with RCA technology to construct an electrochemical biosensor for highly sensitive detection of miRNA-21 [59]. First, the DNAzyme chain is used as the NAL structure, which is very stable, and miRNA-21 can specifically open the NAL structure.…”
Section: Nucleic Acid-based Signal Amplificationmentioning
confidence: 99%
“…The long-chain DNA produced by RCA can be combined with more signal probes to multiply the detection signal. Wang et al developed a nucleic acid lock (NAL) nanostructure and combined NAL with RCA technology to construct an electrochemical biosensor for highly sensitive detection of miRNA-21 [59]. First, the DNAzyme chain is used as the NAL structure, which is very stable, and miRNA-21 can specifically open the NAL structure.…”
Section: Nucleic Acid-based Signal Amplificationmentioning
confidence: 99%
“…31,32 In addition, DNAzymes possess several unique properties, such as high catalytic activity, multiple turnover capability and being free of stringent reaction conditions. [33][34][35][36] These advantages make DNAzymes attractive signal amplification alternatives for the construction of various sensitive biosensors. Here, using a new self-constrained DNAzyme and HCR, we report a dually amplified and label-free fluorescence aptamer sensor to sensitively detect sarafloxacin in diluted milk samples.…”
Section: Introductionmentioning
confidence: 99%
“…To address this problem, DNA cascade circuits have thus been constructed by integrating HCR circuits with other amplification methods and exhibit an improved amplification efficiency. However, these cascade circuits are restricted by the limited amplification depth, resulting from their conventional stacked-configuration format. To overcome the abovementioned limitation, a more advanced initiator-regeneration mechanism has been applied to promote the amplification efficiency by automatically accumulating new triggers that facilitate the fast accomplishment of the self-sustainable DNA circuit systems, yet current existing approaches always require complicated signal translation processes, resulting in the false signal leakage. Accordingly, it is highly desirable to devise a simple and robust strategy for the construction of autonomous initiator-duplicated amplifiers, which can significantly improve the amplification efficiency of the self-sustainable pathway.…”
Section: Introductionmentioning
confidence: 99%