Issue 20, 2011

Five isomers of monomeric cytosine and their interconversions induced by tunable UV laser light

Abstract

Photoisomerization processes involving five isomers of cytosine were induced by narrowband tunable UV irradiation of matrix-isolated monomers of the compound. Irradiation of an argon matrix containing cytosine monomers with UV λ = 313 nm laser light resulted in synanti photoisomerizations between the two iminooxo forms, whereas the substantially more populated aminohydroxy and aminooxo forms stayed intact. Subsequent irradiation with shorter-wavelength UV λ = 311 nm laser light led to two concomitant phototautomeric processes consuming the aminooxo isomer: (i) an oxo → hydroxy hydrogen-atom transfer photoprocess converting the aminooxo form into the aminohydroxy tautomer; (ii) aminoimino hydrogen-atom transfer converting the aminooxo form into the iminooxo isomers. The UV-induced phototransformations, together with mutual conversions of the two aminohydroxy conformers induced by irradiation with narrowband NIR light, allowed positive detection and identification of the five isomeric forms of monomeric cytosine. This is the first experimental observation of all five low-energy isomers of cytosine.

Graphical abstract: Five isomers of monomeric cytosine and their interconversions induced by tunable UV laser light

Supplementary files

Article information

Article type
Paper
Submitted
07 Dec 2010
Accepted
10 Mar 2011
First published
15 Apr 2011

Phys. Chem. Chem. Phys., 2011,13, 9676-9684

Five isomers of monomeric cytosine and their interconversions induced by tunable UV laser light

L. Lapinski, I. Reva, M. J. Nowak and R. Fausto, Phys. Chem. Chem. Phys., 2011, 13, 9676 DOI: 10.1039/C0CP02812F

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