Dynamic anion recognition by macrocyclic polyamines in neutral pH aqueous solution: development from static anion complexes to an enolate complex
Abstract
Multiprotonated macrocyclic polyamines are useful host molecules for anion guests at neutral pH in aqueous solution. An intramolecular uracil anion complex with a diprotonated macrocyclic tetraamine recently provided a unique example of electrostatic stabilization of the uracil N1 anion at neutral pH, which may be relevant to the facile glycosylation and deglycosylation of uracil at N1 in DNA. Macrocyclic polyamine complexes with Zn2+ possess strong anion affinities and hence can deprotonate weak acids at neutral pH to bind with the resulting conjugate bases: e.g. H2O → HO–, ROH → RO–, ArSO2NH2 → ArSO2NH–, RCONHR′ → RCON–R′, RCONHCOR′ → RCON–COR′. The Zn2+–conjugate base complexes act as catalytic nucleophiles (i.e. HO––Zn2+, RO––Zn2+), fluorescence sensors (ArSO2NH––Zn2+), and thymine or barbital recognition hosts, which are often found in zinc–enzyme functions. Enolate anion complex formation has recently been observed in intramolecular interaction of carbonyl oxygen with Zn2+.