Naoyuki Sekioka scite author profile

We describe the quantitative nonlabel electrochemical detection of both cytosine (C) and methylcytosine (mC) in oligonucleotides using newly developed nanocarbon film electrodes. The film consists of nanocrystalline sp2 and sp3 mixed bonds formed by employing the electron cyclotron resonance (ECR) sputtering method. We successfully used this film to develop a simple electrochemical DNA methylation analysis technique based on the measurement of the differences between the oxidation currents of C and mC since our ECR nanocarbon film electrode can directly measure all DNA bases more quantitatively than conventional glassy carbon or boron-doped diamond electrodes. The excellent properties of ECR nanocarbon film electrodes result from the fact that they have a wide potential window while maintaining the high electrode activity needed to oxidize oligonucleotides electrochemically. Proof-of-concept experiments were performed with synthetic oligonucleotides including different numbers of C and mC. This film allowed us to perform both C- and mC-positive assays solely by using the electrochemical oxidation of oligonucleotides without bisulfite or labeling processes.

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Nanohybrid Carbon Film for Electrochemical Detection of SNPs without Hybridization or Labeling

Kato

Sekioka

Ueda

et al. 2008

Angew Chem Int Ed

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Base discrimination: A nanocarbon film electrode exhibits sufficiently high activity to obtain sharp, quantitative peaks for all the bases in an oligonucleotide. This property allows the label‐free electrochemical analysis of single‐nucleotide polymorphisms (SNPs) through the discrimination of single‐base differences solely by using electrochemical oxidation (see picture; ssDNA=single‐strand DNA).

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Naoyuki Sekioka

A Nanocarbon Film Electrode as a Platform for Exploring DNA Methylation

Nanohybrid Carbon Film for Electrochemical Detection of SNPs without Hybridization or Labeling

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