DNA methyltransferases (MTases) catalyze the transfer of a methyl group from S-adenosylmethionine (SAM) to the 5-positon of cytosine in CpG islands, eventually inducing the DNA methylation in both prokaryotes and eukaryotes. Despite the development of various methods for the MTase assay, most of them are laborious and costly with poor sensitivity. Herein, we develop a highly sensitive chemiluminescence method for the MTase assay using hairpin probe-based primer generation rolling circle amplification (PG-RCA). In the presence of DNA adenine methylation (Dam) MTase, the methylation-responsive sequence of hairpin probe is methylated and cleaved by the methylation-sensitive restriction endonuclease Dpn I. The cleaved hairpin probe then functions as a signal primer to initiate PG-RCA reaction by hybridizing with the circular DNA template, producing a large number of horseradish peroxidase-mimicking DNAzyme chains, which can catalyze the oxidation of luminal by H2O2 in the presence of hemin to yield distinct chemiluminescence signal. While in the absence of Dam MTase, neither methylation/cleavage nor PG-RCA reaction can be initiated and no chemiluminescence signal is observed. The proposed method exhibits a wide dynamic range from 0.025 to 400 U/mL and an extremely low detection limit of 1.29 × 10(-4) U/mL, which is superior to most conventional approaches for the MTase assay. This method can be used for the screening of antimicrobial drugs and has a great potential to be further applied in early clinical diagnosis.
We have developed a quantum dot-based microRNA nanosensor for point mutation assays using primer generation-mediated rolling circle amplification. The proposed method exhibits high sensitivity with a detection limit of as low as 50.9 aM and a large dynamic range of 7 orders of magnitude from 0.1 fM to 1 nM. Importantly, this method can be further applied to analyze the point mutation of mir-196a2 in the lung tissues of non small-cell lung cancer patients.
We develop a sensitive fluorescence method for DNA methyltransferase (MTase) assay based on T7 RNA polymerase-mediated transcription amplification and duplex-specific nuclease (DSN)-assisted cyclic signal amplification. This method exhibits excellent specificity and high sensitivity with a detection limit of 0.015 U mL(-1), and it may be further applied for the screening of antimicrobial drugs.
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