A micro-nano interface integrated SERS-based microfluidic sensor for miRNA detection using DNAzyme walker amplification

Background: Precise and specific miRNA detection plays a vital role in exploring development mechanisms of cancer disease, thereby it can significantly improve relevant prevention and treatment strategies.Results: In this work, a surface-enhanced Raman spectroscopy (SERS)-based microfluidic chip has been devised with a microcone array SERS substrate (MCASS) for the miR-141 detection. This substrate excels in unique SERS activity and large surface area for DNA oligonucleotide modification. As the presence of miR-141, the DNAzyme walker induced cleavage reaction took place on the finely designed and prepared dual DNA conjugated SERS nanoprobes. The SERS nanoprobes can anchor on MCASS by the DNA hybridization that achieved an impressive detection limit in the femtomolar level.Significance: With this integrated SERS-based microfluidic chip, we provided a miRNA detection strategy using DNAzyme walker amplification technology. It is believed that this strategy could be a powerful tool for miRNA detection and related cancer screening test.

Automated summary

In this study, a microfluidic chip based on SERS technology was developed for precise detection of miRNA. By utilizing MCASS as the SERS substrate and combining DNAzyme walker amplification technology with SERS nanoprobes, high sensitivity detection of miR-141 was achieved.