Journal
ANALYTICAL CHEMISTRY
Volume 89, Issue 11, Pages 5977-5983Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.analchem.7b00533
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Funding
- JSPS [26410168]
- Grants-in-Aid for Scientific Research [26410168] Funding Source: KAKEN
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This paper reports an on-chip electrochemical assessment of the DNA methylation status in genomic DNA on a conductive nanocarbon film electrode-realized with combined bisulfite restriction analysis (COBRA). The film electrode consists of sp(2) and sp(3) hybrid bonds and is fabricated with an unbalanced magnetron (UBM) sputtering method. First, we studied the effect of the sp(2)/sp(3) ratio of the UBM nanocarbon film electrode with p-aminophenol, which is a major electro-active product of the labeling enzyme from p-aminophenol phosphate. The signal current for p-aminophenol increases as the sp(2) content in the UBM nanocarbon film electrode increases because of the pi-pi interaction between aromatic p-aminophenol and the graphene-like sp(2) structure. Furthermore, the capacitative current at the UBM nanocarbon film electrode was successfully reduced by about 1 order magnitude thanks to the angstrom-level surface flatness. Therefore, a high signal-to-noise ratio was achieved compared with that of conventional electrodes. Then, after performing an ELISA-like hybridization assay with a restriction enzyme, we undertook an electrochemical evaluation of the cytosine methylation status in DNA by measuring the oxidation current derived from p-aminophenol. When the target cytosine in the analyte sequence is methylated (unmethylated), the restriction enzyme of HpyCH4IV is able (unable) to cleave the sequence, that is, the detection probe cannot (can) hybridize. We succeeded in estimating the methylation ratio at a site-specific CpG site from the peak current of a cyclic voltammogram obtained from a PCR product solution ranging from 0.01 to 1 nM.
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