Holmlin R. Erik, Stemp Eric D. A., Barton Jacqueline K.
Division of Chemistry and Chemical Engineering, California Institute of Technology, Pasadena, California 91125.
Inorg Chem. 1998 Jan 12;37(1):29-34. doi: 10.1021/ic970869r.
Emission of Delta-Ru(phen)(2)dppz(2+) bound to nucleic acid polymers of different sequence has been investigated by time-resolved luminescence spectroscopy and the effect of major and minor groove DNA binding agents on the luminescence profile of the complex evaluated. In the presence of a 1:1 mixture of poly d(AT) and poly d(GC), the excited-state decay of Delta-Ru(phen)(2)dppz(2+) can be described by a linear combination of the decay profiles in the presence of poly d(AT) and poly d(GC) independently. This analysis indicates that approximately 85% of the complexes are bound to poly d(AT) and that the metallointercalator preferentially occupies AT sites in mixed-sequence polymers such as calf thymus or T4 DNA. When rac-Ru(phen)(2)dppz(2+) bound to [d(5'-GAGTGCACTC-3')(2)] is titrated with the major groove intercalator Delta-alpha-Rh[(R,R)-Me(2)trien]phi, the ruthenium emission yield decreases while the absorbance of the pi-pi transition centered on the dppz ligand increases, until saturation behavior is observed at a 1:1 Rh/duplex ratio. These titrations indicate that Ru(phen)(2)dppz(2+) is displaced from the major groove by the rhodium complex. In contrast, for rac-Ru(phen)(2)dppz(2+) bound to poly d(AT), addition of the minor groove binding agent distamycin produces an increase in ruthenium emission which saturates at approximately 1 distamycin/5 bp, consistent with the double helix being able to accommodate major and minor groove binders simultaneously. Distamycin has no effect on the emission of Ru(phen)(2)dppz(2+) emission bound to poly d(GC). These photophysical studies establish a sequence preference in binding to DNA by Ru(phen)(2)dppz(2+) as well as providing support for the original assignment by NMR of ruthenium intercalation from the major groove side of the DNA helix.
通过时间分辨发光光谱研究了与不同序列核酸聚合物结合的Δ-Ru(phen)₂dppz²⁺的发射,并评估了大沟和小沟DNA结合剂对该配合物发光谱的影响。在聚d(AT)和聚d(GC)的1:1混合物存在下,Δ-Ru(phen)₂dppz²⁺的激发态衰变可以通过聚d(AT)和聚d(GC)单独存在时衰变谱的线性组合来描述。该分析表明,约85%的配合物与聚d(AT)结合,并且金属插入剂优先占据混合序列聚合物(如小牛胸腺或T4 DNA)中的AT位点。当用大沟插入剂Δ-α-[Rh[(R,R)-Me₂trien]phi]³⁺滴定与[d(5'-GAGTGCACTC-3')₂]结合的rac-Ru(phen)₂dppz²⁺时,钌的发射产率降低,而以dppz配体为中心的π-π跃迁的吸光度增加,直到在1:1的Rh/双链体比例下观察到饱和行为。这些滴定表明,Ru(phen)₂dppz²⁺被铑配合物从大沟中取代。相反,对于与聚d(AT)结合的rac-Ru(phen)₂dppz²⁺,添加小沟结合剂偏端霉素会使钌的发射增加,在约1个偏端霉素/5个碱基对时达到饱和,这与双螺旋能够同时容纳大沟和小沟结合剂一致。偏端霉素对与聚d(GC)结合的Ru(phen)₂dppz²⁺的发射没有影响。这些光物理研究确定了Ru(phen)₂dppz²⁺与DNA结合时的序列偏好,同时也为通过NMR最初确定的钌从DNA螺旋大沟侧插入提供了支持。
