A comparative investigation of the noncovalent interaction of the platinum(II) polypyridine complexes [Pt(dipy)(n-Rpy)2]2+ and [Pt(4,4‘-Me2dipy)(2-Rpy)2]2+ (dipy = 2,2‘-dipyridine; Me = CH3; n = 2−4; R = H or CH3) with double-helical DNA (calf thymus) and RNA [poly(A)·poly(U)] has been conducted. With the exception of [Pt(dipy)(2-Mepy)2]2+, all of the complexes interact strongly, by intercalation, with both nucleic acids giving rise to large changes in the electronic spectra and induced circular dichroism signals; in addition, viscosity experiments on rodlike DNA and RNA show that both biopolymers elongate upon interaction with the complexes. The binding constant values, KB, determined at 25 °C, indicate that, at 0.101 M ionic strength, the affinity for poly(A)·poly(U) is strongly dependent on the complexes nature, while for DNA it is leveled off. [Pt(dipy)(2-Mepy)2]2+ binds to DNA but does not interact appreciably with poly(A)·poly(U).
DNA and RNA noncovalent interaction of Platinum(II) polypyridine complexes
CUSUMANO, Matteo;DI PIETRO, Maria Letizia;GIANNETTO, Antonino;
2007-01-01
Abstract
A comparative investigation of the noncovalent interaction of the platinum(II) polypyridine complexes [Pt(dipy)(n-Rpy)2]2+ and [Pt(4,4‘-Me2dipy)(2-Rpy)2]2+ (dipy = 2,2‘-dipyridine; Me = CH3; n = 2−4; R = H or CH3) with double-helical DNA (calf thymus) and RNA [poly(A)·poly(U)] has been conducted. With the exception of [Pt(dipy)(2-Mepy)2]2+, all of the complexes interact strongly, by intercalation, with both nucleic acids giving rise to large changes in the electronic spectra and induced circular dichroism signals; in addition, viscosity experiments on rodlike DNA and RNA show that both biopolymers elongate upon interaction with the complexes. The binding constant values, KB, determined at 25 °C, indicate that, at 0.101 M ionic strength, the affinity for poly(A)·poly(U) is strongly dependent on the complexes nature, while for DNA it is leveled off. [Pt(dipy)(2-Mepy)2]2+ binds to DNA but does not interact appreciably with poly(A)·poly(U).Pubblicazioni consigliate
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