| Abstract: | ![]()
Summary 6-Trichloromethyl-9-methylpurine (1) rearranges to 6-dichloromethyl-9-methyl-8-oxopurine (2) in aqueous mild acidic solution. The rearrangement is rationalized in terms of a reaction involving protonation, covalent hydration, prototropic equilibrium and/or a hydride transfer. An alternative mechanism involving a  positive halogen compound and hypochlorous acid as an intermediary is also proposed. Compound1 condenses with 4,5-diaminopyrimidine to give the purine-pyrimidine Schiff base pair4.Acknowledgments. We are deeply indebted to Professor S. Cohen of the Sackler School of Medicine, Tel Aviv University (Ramat Aviv, Isreal) for his advice and encouragement. Support of this research by the Israel Cancer Association, the Ber-Lamsdorf Foundation Switzerland Israel and by the Advancement of Mankind Foundation, is gratefully acknowledged. We thank Proff. D. Arigoni and A. Eschenmoser, ETH Zürich, for their valuable proposals and comments on the mechanism of the rearrangement. |
