부산대학교 도서관

Reactions of cis-[PtCl(NH3)(CyNH2)(OH2)]+ (Cy=cyclohexyl) with thione-containing single-stranded oligonucleotides d(T8XT8) and d(XT16) (X=s6I or s4U) and the mononucleotides 4-thiouridine (s4UMP) and 6-mercaptoinosine (s6IMP) have been studied in aqueous solution at pH 4.1. The reaction kinetics was followed using HPLC methodology as a function of ionic strength in the interval 5.0 mM≤I≤300 mM. A two-fold kinetic preference for reaction with the s6I moiety over s4U is observed in both monomeric and oligomeric systems. The rate for adduct formation with the oligonucleotides d(T8XT8) and d(XT16) decreases with increasing ionic strength of the medium. The effect is most pronounced for adduct formation with the middle positions, e.g. for d(T8s6IT8): k2,app=370 M–1 s–1 and 13 M–1 s–1 at I=5.0 and 300 mM, respectively, and slightly less pronounced for adduct formation at the end positions, e.g. for d(s6IT16): k2,app=130 M–1 s–1 and 11 M–1 s–1 at I=5.0 and 300 mM, respectively. Analysis of the salt dependence using the Brønsted-Debye-Hückel relationship shows that the reactions with the monomers are well described as an interaction between a monovalent cation and a monovalent anion. In contrast, a similar analysis of the oligonucleotide reactions indicates influence from polyelectrolyte effects. The results support a mechanism in which pre-association on the DNA surface precedes adduct formation, regardless of the exact location of the final binding site. Electronic supplementary material to this paper, comprising Figs. S1–S6 and Tables S1–S3, can be obtained by using the Springer Link server located at http://dx.doi.org/10.1007/s00775-002-0384-9. [ABSTRACT FROM AUTHOR]