Label-free and ratiometric detection of microRNA based on target-induced catalytic hairpin assembly and two fluorescent dyes
Literature Information
Publication Date
2019-09-13
DOI
10.1039/C9AY01891C
Impact Factor
2.896
Authors
Danyang Ji, Xi Mou
View Original
Abstract
MicroRNAs (miRNAs) play critical roles in gene regulation and are related to human diseases such as cancer, and thus the sensitive and accurate detection of miRNAs is of great significance. In this work, we report a novel label-free fluorometric and ratiometric miRNA sensing method. We develop two complementary hairpin DNA probes (H1 and H2) for the catalytic hairpin assembly (CHA) signal amplification and employ two fluorescent dyes (NMM and DAPI) as signal reporters. Target miRNA binding to H1 can initiate the CHA and target the recycling process, making conformational changes in H1 and H2 and accelerating the hybridization between them. Significant fluorescence reduction of NMM and fluorescence enhancement of DAPI can be observed during the process, which enable sensitive and ratiometric detection of miRNA. Notably, we apply this method to measure cancer-related miRNA-21 and miRNA-125b, and our results highlight the general utility of our approach to detect miRNAs, with sub-picomolar low detection limits. We also apply this method in cell lysate to demonstrate its potential for application in miRNA analysis in biological samples.
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Source Journal
Analytical Methods
CiteScore:
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Self-citation Rate:
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Analytical Methods welcomes early applications of new analytical and bioanalytical methods and technology demonstrating the potential for societal impact. We require that methods and technology reported in the journal are sufficiently innovative, robust, accurate, and compared to other available methods for the intended application. Developments with interdisciplinary approaches are particularly welcome. Systems should be proven with suitably complex and analytically challenging samples. We encourage developments within, but not limited to, the following technologies and applications: global health, point-of-care and molecular diagnostics biosensors and bioengineering drug development and pharmaceutical analysis applied microfluidics and nanotechnology omics studies, such as proteomics, metabolomics or glycomics environmental, agricultural and food science neuroscience biochemical and clinical analysis forensic analysis industrial process and method development
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