Artificial dinuclear phosphoesterases

Abstract

Many elegant dinuclear transition metal and lathanide complexes that efficiently hydrolyze phosphate esters including RNA and DNA have been reported recently. In most cases, the dinuclear complexes are much more reactive than the corresponding mononuclear metal complexes. Furthermore, structural and kinetic data indicate that substantial rate acceleration for phosphate diester cleavage is obtained by bridging the dinuclear metal centers with the two phosphoryl oxygens. Interestingly, such bridging structures have recently been implicated in several metalloenzyme catalyzed phosphate hydrolyses.