Accessibility and External versus Intercalative Binding to DNA As Assessed by Oxygen-Induced Quenching of the Palladium(II)-Containing Cationic Porphyrins Pd(T4) and Pd(tD4)

Studies reveal that it is possible to design a palladium(II)-containing porphyrin to bind exclusively by intercalation to double-stranded DNA while simultaneously enhancing the ability to sensitize the formation of singlet oxygen. The comparisons revolve around the cations [5,10,15,20-tetra(N-methyl...

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Veröffentlicht in:	Biochemistry (Easton) 2014-02, Vol.53 (4), p.714-724
Hauptverfasser:	Bork, Matthew A, Gianopoulos, Christopher G, Zhang, Hanyu, Fanwick, Phillip E, Choi, Jong Hyun, McMillin, David R
Format:	Artikel
Sprache:	eng
Schlagworte:	Coordination Complexes - chemical synthesis Coordination Complexes - chemistry Crystallography, X-Ray DNA - chemistry Intercalating Agents - chemical synthesis Intercalating Agents - chemistry Oxygen - chemistry Palladium Porphyrins - chemical synthesis Porphyrins - chemistry Singlet Oxygen - chemistry
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container_title	Biochemistry (Easton)
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creator	Bork, Matthew A Gianopoulos, Christopher G Zhang, Hanyu Fanwick, Phillip E Choi, Jong Hyun McMillin, David R
description	Studies reveal that it is possible to design a palladium(II)-containing porphyrin to bind exclusively by intercalation to double-stranded DNA while simultaneously enhancing the ability to sensitize the formation of singlet oxygen. The comparisons revolve around the cations [5,10,15,20-tetra(N-methylpyridinium-4-yl)porphyrin]palladium(II), or Pd(T4), and [5,15-di(N-methylpyridinium-4-yl)porphyrin]palladium(II), or Pd(tD4), in conjunction with AT and GC rich DNA binding sequences. Methods employed include X-ray crystallography of the ligands as well as absorbance, circular dichroism, and emission spectroscopies of the adducts and the emission from singlet oxygen in solution. In the case of the bulky Pd(T4) system, external binding is almost as effective as intercalation in slowing the rate of oxygen-induced quenching of the porphyrin’s triplet excited state. The fractional efficiency of quenching by oxygen nevertheless approaches 1 for intercalated forms of Pd(tD4), because of intrinsically long triplet lifetimes. The intensity of the sensitized, steady-state emission signal varies with the system and depends on many factors, but the Pd(tD4) system is impressive. Intercalated forms of Pd(tD4) produce higher sensitized emission yields than Pd(T4) is capable of in the absence of DNA.
doi_str_mv	10.1021/bi401610t
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subjects	Coordination Complexes - chemical synthesis Coordination Complexes - chemistry Crystallography, X-Ray DNA - chemistry Intercalating Agents - chemical synthesis Intercalating Agents - chemistry Oxygen - chemistry Palladium Porphyrins - chemical synthesis Porphyrins - chemistry Singlet Oxygen - chemistry
title	Accessibility and External versus Intercalative Binding to DNA As Assessed by Oxygen-Induced Quenching of the Palladium(II)-Containing Cationic Porphyrins Pd(T4) and Pd(tD4)
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