Biopolym. Cell. 1996; 12(1):49-52.
The quantum mechanical calculations evidence molecular-zwitterionic features of prototropic tautomerism of canonical nucleotide bases. 2. Purines
- Institute of Molecular Biology and Genetics, NAS of Ukraine
150, Akademika Zabolotnoho Str., Kyiv, Ukraine, 03680
Abstract
The prototropic zwitterionic tautomerism of free adenine (Ade) and guanine ( Gua) was investigated by the semiempirical quantum-mechanical AMI method at the full optimization of structural parameters. This property ofpurine nucleotide bases was shown to be of molecular-zwitterionic features. Unlike pyrimidine bases, energetic intervals ofpurine molecular and zwitterionic tautomers are overlapped. Therewith zwitterionic tautomer with the most low energy is formed from molecular tautomeric ground state by the migration of the C8H carboproton to neighbour endocyclic N7 nitrogen atom, its relative energy being equal to 17,06 and 14,50 kcal/mol respectively for Ade and Gua.
Full text: (PDF, in Ukrainian)
References
[1]
Govorun DM, Kondratyuk IV. The quantum mechanical calculations evidence molecular-zwitterionic features of prototropfc tautomerism of canonical nucleotide bases. 1. Pyrimidines. Biopolym Cell. 1996; 12(1):42-8.
[2]
Norinder U. A theoretical reinvestigation of the nucleic bases adenine, guanine, cytosine, thymine and uracil using AM1. J Mol Struct. 1987;151:259–69.
[3]
Sabio M, Topiol S, Lumma WC. An investigation of tautomerism in adenine and guanine. J Phys Chem. 1990;94(4):1366–72.
[4]
Govorun DM, Kondratyuk IV, Zheltovsky NV. Prototropic molecular-zwitterion tautomerism of purine. Biopolym Cell. 1995; 11(6):45-50.
[5]
Govorun DM, Kondratyuk IV, Zheltovsky NV. Prototropic molecular-zwitterion tautomerism of imidazole and pyrimidine. Biopolym Cell. 1995; 11(6):41-4.
