Acidic-basic properties of pyrimidine, imidazole and purine in vacuum: calculation by AMI method

Govorun, D. M.; Kondratyuk, I. V.; Zheltovsky, N. V.

doi:10.7124/bc.0003F6

Biopolym. Cell. 1995; 11(5):21-23.

http://dx.doi.org/10.7124/bc.0003F6

Acidic-basic properties of pyrimidine, imidazole and purine in vacuum: calculation by AMI method

1Govorun D. M., 1Kondratyuk I. V., 1Zheltovsky N. V.

Institute of Molecular Biology and Genetics, NAS of Ukraine
150, Akademika Zabolotnoho Str., Kyiv, Ukraine, 03680

Abstract

The protonation energy of endocyclic nitrogen atoms, which is not bonded with hydrogen atoms, as well as the deprotonation energies of all NH- and OH-groups of the main molecular tautomers of pyrimidine (Pyr), imidazole (Im) and purine (Pur) were calculated in vacuum by means of semiempirical quantum mechanical AMI method with full optimization of all structural parameters. It was established, that the nitrogen Nl atom of pyrimidine ring is the most probable site of protonation, the acidic and basic properties of the pyrimidine fragment of Pur are more pronounced than the ones of Pyr. Imidazole fragment of Pur possesses the better acidic properties, than molecule of Im, but the significantly worse protofility of endocyclic nitrogen atom free of hydrogen. From the data obtained the next conclusions about the most probable mechanisms of Pyr and of Im homoassociations in vacuum has been drown: Pyr forms two cyclic cooperative H-bonds C2H...N1 (or C2...N3) and Im creates linear homoassociates through periodic cooperative H-bonds N1H...N3.

Full text: (PDF, in Ukrainian)

References

[1] Govorun DM, Kondratyuk IV, Zheltovsky NV. Acidic-basic properties of molecular xanthine and its complex formation ability. Biopolym Cell. 1994; 10(6):61-4.

[2] Govorun DM, Kondratyuk IV, Zheltovsky NV. Acidic-basic properties of molecular hypoxanthine in vacuum. Biopolym Cell. 1995; 11(1):3639.

[3] Pullman B, Pullman A. Quantum biochemistry. Interscience Publishers. N. Y., 1963; 867 p.

[4] Petrov ES. The equilibrium NH acidity of organic compounds. Russ Chem Rev. 1983; 52(12) 1144-1155.

[5] Pozharskii AF, Zvezdina EA. The Acid Properties of the Amino-group. Russ Chem Rev 1973;42(1):37-55.

[6] Del Bene JE. Molecular orbital study of the protonation of DNA bases. J Phys Chem. 1983;87(2):367–71.

[7] Govorun DM, Kondratyuk IV, Zheltovsky NV. Prototropic molecular-zwitterion tautomerism of imidazole and pyrimidine. Biopolym Cell. 1995; 11(6):41-4.

[8] Nowak M.J., Lapinski L., Kwiatkowski J.S. An infrared matrix isolation study of tautomerism in purine and adenine. Chemical Physics Letters. 1989; 157 (1-2):14-18.

[9] Shorygin P, Burstein KYa. Pairing and periodic system of elements. Russ Chem Rev. 1991; 60(1):1—24.

[10] Vereshchagin AN. Inductive effect. M: Nauka, 1987; 3-44.

[11] Meot-Ner M. Ion thermochemistry of low-volatility compounds in the gas phase. 2. Intrinsic basicities and hydrogen-bonded dimers of nitrogen heterocyclics and nucleic bases. J Am Chem Soc. 1979;101(9):2396–403.

[12] Tupitsyn IF, Popov AS, Shibayev AYu. Aromatic heterocycles as CH acid. 1. The methyl derivatives of five-and six-membered heterocycles. Zh Obshch Khim. 1992;62(124), 9: 2100-11.