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Electrochemical Oxidation and Determination of 3‐Methyladenine at Glassy Carbon Electrode

The electrooxidation of 3‐methyladenine (3‐mAde) in aqueous electrolytes on the glassy carbon electrode (GCE) was investigated by voltammetric techniques and electrochemical impedance spectroscopy (EIS). Different experimental factors were explored, such as the influence of concentration, compositio...

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Published in:Electroanalysis (New York, N.Y.) N.Y.), 2024-10
Main Authors: Oliveira, José Eudes S., Araújo, Alex P., Neto, José Gouveia S., de Almeida, João Paulo B., Souza Gil, Eric, dos Santos, Vagner B., Oliveira, Severino Carlos B.
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container_title Electroanalysis (New York, N.Y.)
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creator Oliveira, José Eudes S.
Araújo, Alex P.
Neto, José Gouveia S.
de Almeida, João Paulo B.
Souza Gil, Eric
dos Santos, Vagner B.
Oliveira, Severino Carlos B.
description The electrooxidation of 3‐methyladenine (3‐mAde) in aqueous electrolytes on the glassy carbon electrode (GCE) was investigated by voltammetric techniques and electrochemical impedance spectroscopy (EIS). Different experimental factors were explored, such as the influence of concentration, composition and pH of the medium, mass transport, adsorption of products on GCE and the presence of possible interferers on the oxidation of 3‐mAde. The electrochemical data demonstrated that the methyl group is not electroactive, but strongly influences the oxidation mechanism of 3‐mAde. The anodic behaviour of 3‐mAde occurred from mass transport by diffusion, in a single irreversible pH‐dependent step, in an electrode reaction with the removal of one electron and one proton. By cyclic voltammetry the diffusion coefficient of 3‐mAde was assessed in physiological neutral pH ( D 3‐mAde =1.57×10 −5 cm 2 s −1 ). In comparison to adenine, the oxidation of 3‐mAde occurred at more positive potential values (~200 mV), thus allowing the simultaneous voltammetric determination of both bases. A new differential pulse voltammetric method for determination of 3‐mAde in acetate buffer (pH=4.5) and phosphate buffer (pH=7.0) was also proposed. Recovery experiments were performed and additions of 3‐mAde with known concentrations were made in samples prepared from mixtures of free DNA bases and the 7‐mGua adduct in acetate buffer (pH=4.5). The results were quite satisfactory (96.4 – 101.3% recovery), indicating excellent precision and accuracy, as well as advantages such as simplicity, speed and cost of the proposed method.
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A new differential pulse voltammetric method for determination of 3‐mAde in acetate buffer (pH=4.5) and phosphate buffer (pH=7.0) was also proposed. Recovery experiments were performed and additions of 3‐mAde with known concentrations were made in samples prepared from mixtures of free DNA bases and the 7‐mGua adduct in acetate buffer (pH=4.5). 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A new differential pulse voltammetric method for determination of 3‐mAde in acetate buffer (pH=4.5) and phosphate buffer (pH=7.0) was also proposed. Recovery experiments were performed and additions of 3‐mAde with known concentrations were made in samples prepared from mixtures of free DNA bases and the 7‐mGua adduct in acetate buffer (pH=4.5). 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A new differential pulse voltammetric method for determination of 3‐mAde in acetate buffer (pH=4.5) and phosphate buffer (pH=7.0) was also proposed. Recovery experiments were performed and additions of 3‐mAde with known concentrations were made in samples prepared from mixtures of free DNA bases and the 7‐mGua adduct in acetate buffer (pH=4.5). The results were quite satisfactory (96.4 – 101.3% recovery), indicating excellent precision and accuracy, as well as advantages such as simplicity, speed and cost of the proposed method.</abstract><doi>10.1002/elan.202400149</doi></addata></record>
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title Electrochemical Oxidation and Determination of 3‐Methyladenine at Glassy Carbon Electrode
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