Kinetic and thermodynamic investigation of the (dien)Pd(II)-polycytidylic acid system.

The reaction between (dien)PdCl+ and polycytidylic acid was studied using spectroscopic and stopped-flow methods. In neutral solution, the palladium complex binds at the N3 site of the cytosine base and causes a noncooperative disruption of the ordered helical structure of poly(C). Interaction at the phosphate group of the polynucleotide was also demonstrated by using the dye acridine orange as an indicator.

Interaction of (dien)Pd(II) with cytidine and cytidine 5'-monophosphate. Influence of the phosphate group on the kinetics and mechanism.

The kinetics and the equilibrium of (dien)PdCl+ interaction with cytidine (C) and cytidine 5'-monophosphate (CMP) were studied by spectrophotometry and by stopped-flow methods. In both cases, the mechanism implies a (dien)Pd(H2O)2+ intermediate with a significant contribution of the solvent path at low chloride concentrations. With CMP, the rate is affected due to the addition of a mechanistic path via an intermediate formed between (dien)Pd(II) and the phosphate group of CMP.