Sensitive and specific microRNA detection by RNA dependent DNA ligation and rolling circle optical signal amplification

Abstract

MicroRNAs (miRNAs) have been regarded as potential biomarkers in early diagnosis of cancer. Since the high sequence similarity among miRNA family members, biosensing miRNAs with single-base resolution is still a challenge, particularly when the different base is located at the terminal of miRNA. Herein, we developed two real-time fluorescence monitoring methods for miRNA detection utilizing efficient PBCV-1 DNA ligase mediated target miRNA dependent DNA ligation, followed by rolling circle signal amplification. Compared to duplex-specific nuclease (DSN) enhanced rolling circle transcription (RCT) system, nicking endonuclease (NEase) assisted rolling circle amplification (PRCA-NESA) can provide higher amplification efficiency, and achieve a limit-of-detection of 0.5 amol for miR-17 in 10 μL sample. More importantly, benefiting from the unique characteristics of PBCV-1 DNA ligase, we designed an asymmetric PRCA-NESA method, which can greatly discriminate the single-base difference at either 5′- or 3′-terminals of miRNAs. MiR-17 from various tumor cells also can be reliably detected. In conclusion, our strategy exploited the application potential of PBCV-1 DNA ligase in biosensing, and provided a new idea to highly specific miRNA detection, thereby would possess a promising potential for further application in biomedical research and early cancer diagnosis.