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通过时间分辨可见和红外光谱监测插层和共价键合 [Re(CO)3(dppz)(py)]+-DNA 结构中的电荷光注入。

Charge photoinjection in intercalated and covalently bound [Re(CO)3(dppz)(py)]+-DNA constructs monitored by time-resolved visible and infrared spectroscopy.

机构信息

Division of Chemistry and Chemical Engineering, California Institute of Technology, Pasadena, California 91125, United States.

出版信息

J Am Chem Soc. 2011 Aug 31;133(34):13718-30. doi: 10.1021/ja205568r. Epub 2011 Aug 9.

DOI:10.1021/ja205568r
PMID:21827149
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3227519/
Abstract

The complex Re(CO)(3)(dppz)(py'-OR) (dppz = dipyrido[3,2-a:2',3'-c]phenazine; py'-OR = 4-functionalized pyridine) offers IR sensitivity and can oxidize DNA directly from the excited state, making it a promising probe for the study of DNA-mediated charge transport (CT). The behavior of several covalent and noncovalent Re-DNA constructs was monitored by time-resolved IR (TRIR) and UV/visible spectroscopies, as well as biochemical methods, confirming the long-range oxidation of DNA by the excited complex. Optical excitation of the complex leads to population of MLCT and at least two distinct intraligand states. Experimental observations that are consistent with charge injection from these excited states include similarity between long-time TRIR spectra and the reduced state spectrum observed by spectroelectrochemistry, the appearance of a guanine radical signal in TRIR spectra, and the eventual formation of permanent guanine oxidation products. The majority of reactivity occurs on the ultrafast time scale, although processes dependent on slower conformational motions of DNA, such as the accumulation of oxidative damage at guanine, are also observed. The ability to measure events on such disparate time scales, its superior selectivity in comparison to other spectroscopic techniques, and the ability to simultaneously monitor carbonyl ligand and DNA IR absorption bands make TRIR a valuable tool for the study of CT in DNA.

摘要

该配合物[Re(CO)(3)(dppz)(py'-OR)]+(dppz = 二吡啶并[3,2-a:2',3'-c]吩嗪;py'-OR = 4-功能化吡啶)具有红外敏感性,并且可以直接从激发态氧化 DNA,使其成为研究 DNA 介导电荷传输 (CT) 的有前途的探针。通过时间分辨红外 (TRIR) 和紫外/可见光谱以及生化方法监测了几种共价和非共价 Re-DNA 构建体的行为,证实了激发态配合物对 DNA 的长程氧化作用。配合物的光激发导致 MLCT 和至少两个不同的内配位体态的 populate。与这些激发态的电荷注入一致的实验观察结果包括:长时间 TRIR 光谱与通过光谱电化学观察到的还原态光谱之间的相似性、TRIR 光谱中出现鸟嘌呤自由基信号以及最终形成永久性鸟嘌呤氧化产物。大多数反应性发生在超快时间尺度上,尽管还观察到依赖于 DNA 较慢构象运动的过程,例如鸟嘌呤处氧化性损伤的积累。能够测量如此不同时间尺度上的事件、与其他光谱技术相比具有更好的选择性以及能够同时监测羰基配体和 DNA 红外吸收带,使 TRIR 成为研究 DNA 中 CT 的有价值工具。

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