Title of article
A gas phase ab initio excited state geometry optimization study of thymine, cytosine and uracil Original Research Article
Author/Authors
M.K. Shukla، نويسنده , , P.C Mishra، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 1999
Pages
11
From page
319
To page
329
Abstract
Molecular geometries of the nucleic acid bases thymine, cytosine and uracil in the ground and the lowest two singlet excited states were optimized using the ab initio approach employing the 4-31G basis set for all the atoms except the amino group of cytosine for which the 6-311+G* basis set was used. The excited state calculations were performed employing configuration interaction involving singly excited configurations (CIS). Vibrational frequencies were computed in order to examine the nature of the stationary points on the potential energy surfaces obtained by geometry optimization. While the ground state geometries of uracil and thymine (except the methyl group hydrogens) are planar, the corresponding excited state geometries were found to be significantly nonplanar. In the case of cytosine, the amino group is pyramidal and the rest of the molecule is only slightly nonplanar in the ground state, but the excited state geometries are appreciably nonplanar. In particular, consequent to the S2(n–π*) excitation of cytosine, the amino group plane is strongly rotated. While thymine is stable in the S2(π–π*) excited state, uracil appears to be dissociative in the corresponding excited state.
Journal title
Chemical Physics
Serial Year
1999
Journal title
Chemical Physics
Record number
1056446
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