T. Barlow, A. Dipple
1998
Citations
0
Influential Citations
12
Citations
Journal
Chemical research in toxicology
Abstract
To probe mechanisms of nucleoside aralkylation, product distributions and product stereochemistries were determined in reactions of optically active p-methyl- and p-bromostyrene oxide with guanosine. The proportion of 7-, N2-, and O6-substituted guanosine products was approximately 0.32:0.62:0.06 in neutral, aqueous reactions with the (R)-p-methylstyrene oxide and approximately 0.85: 0.09:0.04 in reactions with the (R)-p-bromostyrene oxide. The exocyclic positions opened the epoxide at the alpha-carbon. Epoxide ring opening by the nitrogen at the 7-position showed little preference for the alpha- or beta-carbons in reactions with p-methylstyrene oxide. However, the p-bromostyrene oxide favored reaction at the beta-carbon almost 4-fold over reaction at the alpha-carbon. Almost total inversion of stereochemistry was found to occur in reactions at the 7-position. In contrast, the ratio of inversion to retention of configuration in N2- and O6-substituted products was approximately 2:1 and approximately 1:1 for reactions with the p-methylstyrene oxide and approximately 6:1 and approximately 3:1 for reactions with p-bromostyrene oxide, respectively. These experiments suggest that an SN2 mechanism is in effect with reactions at the 7-position, whereas substrates of an increasingly ionic nature are involved in reactions at the N2- and O6-positions, respectively.