金属嵌入剂之间DNA介导的电子转移速率。

Rates of DNA-mediated electron transfer between metallointercalators.

作者信息

Arkin M R, Stemp E D, Holmlin R E, Barton J K, Hörmann A, Olson E J, Barbara P F

机构信息

Beckman Institute, California Institute of Technology, Pasadena, CA 91125, USA.

出版信息

Science. 1996 Jul 26;273(5274):475-80. doi: 10.1126/science.273.5274.475.

DOI:10.1126/science.273.5274.475

PMID:8662532

Abstract

Ultrafast emission and absorption spectroscopies were used to measure the kinetics of DNA-mediated electron transfer reactions between metal complexes intercalated into DNA. In the presence of rhodium(III) acceptor, a substantial fraction of photoexcited donor exhibits fast oxidative quenching (>3 x 10(10) per second). Transient-absorption experiments indicate that, for a series of donors, the majority of back electron transfer is also very fast (approximately 10(10) per second). This rate is independent of the loading of acceptors on the helix, but is sensitive to sequence and pi stacking. The cooperative binding of donor and acceptor is considered unlikely on the basis of structural models and DNA photocleavage studies of binding. These data show that the DNA double helix differs significantly from proteins as a bridge for electron transfer.

摘要

利用超快发射光谱和吸收光谱来测量嵌入DNA中的金属配合物之间DNA介导的电子转移反应的动力学。在铑（III）受体存在的情况下，相当一部分光激发供体表现出快速的氧化猝灭（>3×10¹⁰每秒）。瞬态吸收实验表明，对于一系列供体，大多数反向电子转移也非常快（约10¹⁰每秒）。该速率与螺旋上受体的负载量无关，但对序列和π堆积敏感。基于结合的结构模型和DNA光裂解研究，供体和受体的协同结合不太可能。这些数据表明，作为电子转移的桥梁，DNA双螺旋与蛋白质有显著差异。

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金属嵌入剂之间DNA介导的电子转移速率。

Rates of DNA-mediated electron transfer between metallointercalators.

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