MiRNAs have become an ideal class of biomarker candidates for cancer classification, diagnosis, and prognosis. However, traditional approaches for the detection of miRNAs are usually laborious and time-consuming with a low sensitivity. We developed an ultrasensitive one-pot miRNA detection strategy that uses catalyst-oligomer-mediated enzymatic amplification (CMEA) sensor to circumvent the aforementioned limitations in miRNA detection. In this assay, we employed three oligonucleotides, DNA1, protector-oligomer, and catalyst-oligomer. One target miRNA can generation thousands of DNA1 /catalyst-oligomer duplex. Since the DNA1 /catalyst-oligomer duplex contains an endonuclease sites for Nt.CviPII, DNA1 can be cleaved into two pieces by this NEase, which leads to the denaturation of the DNAl/catalyst-oligomer duplex and thus results in a significant fluorescence signal intensity increase. Notably, this method can sensitively measure Let-7a with a detection limit of 10 fM, which has improved by as much as 7 orders of magnitude higher than that of the photoinduced electron transfer (PET) method without any amplification. Importantly, this method can be used to measure Let-7a in A549 cell extracts and might be further applied for the detection of various miRNA.

• 出版日期2016-2
• 单位江苏省原子医学研究所