Shen Wei-Zheng, Gupta Deepali, Lippert Bernhard
Fachbereich Chemie, Universität Dortmund, 44221 Dortmund, Germany.
Inorg Chem. 2005 Nov 14;44(23):8249-58. doi: 10.1021/ic050255j.
The formation and crystal structure analysis of a cyclic trinuclear Pd complex with bridging 1-methylcytosinato model nucleobases is reported: [[(tmeda)Pd(1-MeC(-)-N3,N4)]3] (ClO4)3.5.5H2O (tmeda = N,N,N',N'-tetramethylethylenediamine; 1-MeC- = 1-methylcytosine deprotonated at exocyclic amino group) is obtained, among others, from the hydroxo-bridged dinuclear species [(tmeda)Pd(OH)]22, which likewise has been characterized by X-ray crystallography, and 1-MeC (1-MeC = neutral 1-methylcytosine) in aqueous solution. The usual head-tail dimer (HT1) appears not to be formed presumably because of the steric bulk of the tmeda ligand, which prevents a close approach of two tmeda ligands. There is also no evidence for formation of an alternative head-tail dimer structure (HT2) which, in principle, would not lead to any steric clash of ligands, but would require an orientation of the metal at N4 that is almost perpendicular to the nucleobase plane. In the Pd3 compound, the bridging metals are approximately in an anti arrangement, thereby leading to Pd...Pd separations within the Pd3 triangle close to 5.2 angstroms. This arrangement is reflected in the 1H NMR spectrum by a strongly deshielded H5 resonance of the nucleobase, occurring at 6.56 ppm (D2O). The overall structure of the Pd3 is that of a double cone, with ClO4- counterions approaching the cavities from either side. The trinuclear structure is also maintained in Me2SO-d6. In this solvent, Pd3 acts as a fluoride anion receptor, with F- binding to the N4H protons, as evident from large downfield shifts of these protons. The compound is compared with cyclic adeninato complexes of hexacoordinated metal ions, and a conceptional analogy with [12]metallacrown-3 species is outlined.
报道了一种具有桥连1-甲基胞嘧啶模型核碱基的环状三核钯配合物的形成及其晶体结构分析:[[(tmeda)Pd(1-MeC(-)-N3,N4)]3] (ClO4)3·5·5H2O(tmeda = N,N,N',N'-四甲基乙二胺;1-MeC- = 在环外氨基去质子化的1-甲基胞嘧啶),除其他产物外,是由羟基桥连的双核物种[(tmeda)Pd(OH)]22(同样已通过X射线晶体学表征)与1-MeC(1-MeC = 中性1-甲基胞嘧啶)在水溶液中反应得到的。通常的头-尾二聚体(HT1)似乎未形成,可能是由于tmeda配体的空间位阻,它阻止了两个tmeda配体的紧密靠近。也没有证据表明形成了另一种头-尾二聚体结构(HT2),原则上,这种结构不会导致配体的任何空间冲突,但需要金属在N4处的取向几乎垂直于核碱基平面。在Pd3化合物中,桥连金属大致呈反式排列,从而导致Pd3三角形内的Pd...Pd间距接近5.2埃。这种排列在1H NMR谱中表现为核碱基的H5共振强烈去屏蔽,出现在6.56 ppm(D2O)处。Pd3的整体结构是双锥结构,ClO4-抗衡离子从两侧接近空腔。三核结构在Me2SO-d6中也得以保持。在这种溶剂中,Pd3作为氟离子受体,F-与N4H质子结合,这些质子的大幅向低场位移证明了这一点。将该化合物与六配位金属离子的环状腺嘌呤配合物进行了比较,并概述了与[12]金属冠-3物种的概念类比。