Effect of base pairing on the electrochemical oxidation of guanine

Cyrille Costentin; Viviane Hajj; Marc Robert; Jean Michel Savéant; Cédric Tard

doi:10.1021/ja103421f

Effect of base pairing on the electrochemical oxidation of guanine

Cyrille Costentin
, Viviane Hajj
, Marc Robert
, Jean Michel Savéant
, Cédric Tard

Université Paris Cité

Research output: Contribution to journal › Article › peer-review

Abstract

The effect of base pairing by cytosine on the electrochemical oxidation of guanine is examined by means of cyclic voltammetry on carefully purified reactants in a solvent, CHCl ₃, which strongly favors the formation of an H-bonded pair. The thermodynamics and kinetics of the oxidation reaction are not strongly influenced by the formation of the pair. They are actually similar to those of the reaction in which 2,6-lutidine, an encumbered base that cannot form a pair with guanine, replaces cytosine. The reaction does not entail a concerted proton-electron mechanism, as attested by the absence of H/D isotope effect. It rather involves the rate-determining formation of the cation radical, followed by its deprotonation and dimerization of the resulting neutral radical in competition with its further oxidation.

Original language	English
Pages (from-to)	10142-10147
Number of pages	6
Journal	Journal of the American Chemical Society
Volume	132
Issue number	29
DOIs	https://doi.org/10.1021/ja103421f
Publication status	Published - 28 Jul 2010
Externally published	Yes

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10.1021/ja103421f

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title = "Effect of base pairing on the electrochemical oxidation of guanine",

abstract = "The effect of base pairing by cytosine on the electrochemical oxidation of guanine is examined by means of cyclic voltammetry on carefully purified reactants in a solvent, CHCl 3, which strongly favors the formation of an H-bonded pair. The thermodynamics and kinetics of the oxidation reaction are not strongly influenced by the formation of the pair. They are actually similar to those of the reaction in which 2,6-lutidine, an encumbered base that cannot form a pair with guanine, replaces cytosine. The reaction does not entail a concerted proton-electron mechanism, as attested by the absence of H/D isotope effect. It rather involves the rate-determining formation of the cation radical, followed by its deprotonation and dimerization of the resulting neutral radical in competition with its further oxidation.",

author = "Cyrille Costentin and Viviane Hajj and Marc Robert and Sav{\'e}ant, \{Jean Michel\} and C{\'e}dric Tard",

year = "2010",

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T1 - Effect of base pairing on the electrochemical oxidation of guanine

AU - Costentin, Cyrille

AU - Hajj, Viviane

AU - Robert, Marc

AU - Savéant, Jean Michel

AU - Tard, Cédric

PY - 2010/7/28

Y1 - 2010/7/28

N2 - The effect of base pairing by cytosine on the electrochemical oxidation of guanine is examined by means of cyclic voltammetry on carefully purified reactants in a solvent, CHCl 3, which strongly favors the formation of an H-bonded pair. The thermodynamics and kinetics of the oxidation reaction are not strongly influenced by the formation of the pair. They are actually similar to those of the reaction in which 2,6-lutidine, an encumbered base that cannot form a pair with guanine, replaces cytosine. The reaction does not entail a concerted proton-electron mechanism, as attested by the absence of H/D isotope effect. It rather involves the rate-determining formation of the cation radical, followed by its deprotonation and dimerization of the resulting neutral radical in competition with its further oxidation.

AB - The effect of base pairing by cytosine on the electrochemical oxidation of guanine is examined by means of cyclic voltammetry on carefully purified reactants in a solvent, CHCl 3, which strongly favors the formation of an H-bonded pair. The thermodynamics and kinetics of the oxidation reaction are not strongly influenced by the formation of the pair. They are actually similar to those of the reaction in which 2,6-lutidine, an encumbered base that cannot form a pair with guanine, replaces cytosine. The reaction does not entail a concerted proton-electron mechanism, as attested by the absence of H/D isotope effect. It rather involves the rate-determining formation of the cation radical, followed by its deprotonation and dimerization of the resulting neutral radical in competition with its further oxidation.

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DO - 10.1021/ja103421f

M3 - Article

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AN - SCOPUS:77955829261

SN - 0002-7863

VL - 132

SP - 10142

EP - 10147

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 29

ER -

Effect of base pairing on the electrochemical oxidation of guanine

Abstract

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