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• 作者：Ilse Manet ; Francesco Manoli ; Maria Pia Donzello ; Elisa Viola ; Annalisa Masi ; Giuseppina Andreano ; Giampaolo Ricciardi ; Angela Rosa ; Luciano Cellai ; Claudio Ercolani ; Sandra Monti
• 刊名：Inorganic Chemistry
• 出版年：2013
• 出版时间：January 7, 2013
• 年：2013
• 卷：52
• 期：1
• 页码：321-328
• 全文大小：552K
• 年卷期：v.52,no.1(January 7, 2013)
• ISSN：1520-510X

文摘

We investigated with spectroscopic techniques the noncovalent interaction of a bimetallic water-soluble (Zn^II/Pt^II) porphyrazine hexacation, [(PtCl₂)(CH₃)₆LZn]⁶⁺, and its octacationic analogue [(CH₃)₈LZn]⁸⁺, lacking the cis-platin-like functionality, with a 21-mer double strand (ds) 5鈥?d[GGG(TTAGGG)₃]-3鈥?3鈥?d[CCC(AATCCC)₃]-5鈥? as model for B-DNA. Both hexacation and octacation tend to aggregate in water. The structure as well as the ground and excited-state electronic properties of the Zn^II/Pt^II hexacation [(PtCl₂)(CH₃)₆LZn]⁶⁺ in water solution were investigated using density functional theory (DFT) and time-dependent DFT (TDDFT) methods. TDDFT calculations of the lowest excited states of [(PtCl₂)(CH₃)₆LZn]⁶⁺ in water provided an accurate description of the Q-band spectral region. In particular, the calculated optical spectra were in agreement with the experimental ones, obtained in the presence of micelles favoring complete disruption of the aggregates. The model for dsDNA binding that emerges from the analysis of UV鈥搗is absorption and time-resolved fluorescence data shows the presence of complexes of 1 dsDNA molecule with 1, 2, and 4 macrocycles. Comparing the results for the hexacation [(PtCl₂)(CH₃)₆LZn]⁶⁺ with those for the [(CH₃)₈LZn]⁸⁺octacation, we observed a higher degree of monomerization for the [(PtCl₂)(CH₃)₆LZn]⁶⁺ derivative.