Ab initio molecular orbital evaluation of the hydrogen bond energy of base pairs formed between substituted 1-methylcytosine derivatives and 9-methylguanine.

The substitution effect on hydrogen bond energy of the Watson-Crick type base pair between 9-methylguanine (G) and chemically modified 1-methylcytosine (CX) derivatives was evaluated by ab initio molecular orbital theory. A remarkable trend was observed in the substitution effect of the hydrogen bond stability: Cytosine derivatives possessing an electron-donating group form stable base pairs with guanine. However, both the hydrogen bond distance and the charge distribution were not good indexes for the hydrogen bond status in CX-G base pairing.