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Electron Attachment to Cytosine: The Role of Water

Pooja Verma, Debashree Ghosh, Achintya Kumar Dutta

2021The Journal of Physical Chemistry A16 citationsDOIOpen Access PDF

Abstract

We present an EOM-CCSD-based quantum mechanical/molecular mechanical (QM/MM) study on the electron attachment process to solvated cytosine. The electron attachment in the bulk solvated cytosine occurs through a doorway mechanism, where the initial electron is localized on water. The electron is subsequently transferred to cytosine by the mixing of electronic and nuclear degrees of freedom, which occurs on an ultrafast time scale. The bulk water environment stabilizes the cytosine-bound anion by an extensive hydrogen-bond network and drastically enhances the electron transfer rate from that observed in the gas phase. Microhydration studies cannot reproduce the effect of the bulk water environment on the electron attachment process, and one needs to include a large number of water molecules in the calculation to obtain converged results. The predicted adiabatic electron affinity and electron transfer rate obtained from our QM/MM calculations are consistent with the available experimental results.

Topics & Concepts

Electron transferCytosineChemical physicsElectronChemistrySolvated electronIonElectron captureHydrogen bondMoleculeAtomic physicsPhotochemistryDNAPhysical chemistryPhysicsRadiolysisAqueous solutionOrganic chemistryBiochemistryQuantum mechanicsPhotochemistry and Electron Transfer StudiesSpectroscopy and Quantum Chemical StudiesDNA and Nucleic Acid Chemistry