Artificial Flavin Receptors: Effects of Hydrogen Bonding on Redox Properties of a Flavin Mimic

This review describes the roles of hydrogen bonding on the redox properties of a flavin mimic by using artificial flavin receptors. The receptors exploited are melamine derivatives bearing guanidinium ion(s) that strongly bind 6-azaflavin through five or seven hydrogen bonds involving N(1), C(2)=O, N(3)-H, C(4)=O, N(5), and N(6) positions in CHCl₃ and CHCl₃-acetonitrile. It has been shown that receptors are quite useful for examination of the hydrogen bonding effects on the redox potential, stability of the anionic semiquinone radical, and the oxidation activity of 6-azaflavin. The functionalized receptors have a substrate- or a metal-binding site have been shown to facilitate the reactions by forming the noncovalent assemblies. A possibility as an apoprotein model of the receptors has been mentioned also.