Efficient RNA hydrolysis by lanthanide(III)–hydrogen peroxide combinations. Novel aggregates as the catalytic species1
Abstract
Combinations of lanthanum(III) ion and hydrogen peroxide efficiently hydrolyze RNA under physiological conditions, because of a synergetic cooperation. The rate constant for the hydrolysis of adenylyl(3′-5′)adenosine at pH 7.2 and 30 °C is 7.7 × 10–2 min–1, when [LaIII]0 = 10 and [H2O2]0 = 100 mM. This value is 460 times as great as that for the ApA hydrolysis by LaIII alone (1.7 × 10–4 min–1). Hydrogen peroxide is inactive when used separately. A similar synergism operates between NdIII and H2O2. According to the kinetic analysis and the potentiometric titration, a trimeric aggregate of [La(O–O)3La] complex is responsible for the RNA hydrolysis. This result is in contrast with the previous proposal on the hydrolysis of bis(4-nitrophenyl)phosphate that monomeric species of [La(O–O)2La]2+ is the active species (B. K. Takasaki and J. Chin, J. Am. Chem. Soc., 1995, 117, 8582). The discrepancy is ascribed to the difference in the basicities of the leaving groups in the substrates.