Mechanism of nitric oxide induced deamination of cytosine
Literature Information
Vanessa Labet, André Grand, Christophe Morell, Jean Cadet, Leif A. Eriksson
A five-step mechanism is proposed for the NO˙-induced deamination of cytosine. It has been investigated using DFT calculations, including both explicit water molecules and a bulk solvent model to mimic an aqueous environment. According to this mechanism, cytosine first undergoes tautomerization with the assistance of a water molecule from the bulk. A NO+ cation produced by the autooxidation of NO˙ is subsequently added to the exocyclic imino group of the cytosine imine tautomer. The resulting adduct is able to undergo a tautomerization step with the participation of a water molecule to produce a cytosine in which a –N2OH group is attached to carbon C4. Protonation of the oxygen of the latter gives a water molecule which dissociates instantaneously, leading to a pyrimidinic diazonium cation. This constitutes the rate-determining step of the mechanism with an activation free energy of 92.6 kJ mol−1. The last step, which is highly exergonic, represents the driving force of the reaction. It is the substitution of the –N2+ terminal group by a water molecule which simultaneously allows the transfer of one of the two hydrogens to the bulk. Thus, the two products of the reaction consist of a nitrogen molecule and the enol tautomer of uracil in equilibrium with the keto form.
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