Woods Mark, Payne Katherine M, Valente Edward J, Kucera Benjamin E, Young Victor G
Advanced Imaging Research Center, Oregon Health and Science University, 3181 SW Sam Jackson Park Road, Portland, OR, 97239, USA.
Department of Chemistry, Portland State University, 1719 SW 10th Avenue, Portland, OR, 97201, USA.
Chemistry. 2019 Jul 25;25(42):9997-10005. doi: 10.1002/chem.201902068. Epub 2019 Jul 3.
The crystal structures of chelates formed between each stable paramagnetic lanthanide ion and the octadentate polyamino carboxylate ligand DOTMA are described. A total of 23 individual chelates structures were obtained; in each chelate the coordination geometry around the metal ion is best described as a twisted square antiprism (torsion angle -25.0°--31.4°). Despite the uniformity of the general coordination geometry provided by the DOTMA ligand, there is a considerable variation in the hydration state of each chelate. The early Ln chelates are associated with a single inner sphere water molecule; the Ln-OH interaction is remarkable for being very long. After a clear break at gadolinium, the number of chelates in the unit cell that have a water molecule interacting with the Ln decreases linearly until at Tm no water is found to interact with the metal ion. The Ln-OH distance observed in the chelates of the later Ln ions are also extremely long and increase as the ions contract (2.550-2.732 Å). No clear break between hydrated and dehydrated chelates is observed; rather this series of chelates appear to represent a continuum of hydration states in which the ligand gradually closes around the metal ion as its ionic radius decreases (with decreased hydration) and the metal drops down into the coordination cage.
描述了每种稳定的顺磁性镧系离子与八齿多氨基羧酸盐配体DOTMA形成的螯合物的晶体结构。总共获得了23个单独的螯合物结构;在每个螯合物中,金属离子周围的配位几何形状最好描述为扭曲的四方反棱柱(扭转角-25.0°--31.4°)。尽管DOTMA配体提供的一般配位几何形状具有一致性,但每个螯合物的水合状态存在相当大的差异。早期的镧系螯合物与单个内球水分子相关联;镧系-OH相互作用的显著特点是非常长。在钆处有明显的间断之后,晶胞中与镧系元素相互作用的水分子的螯合物数量呈线性减少,直到铥时未发现水分子与金属离子相互作用。在后期镧系离子的螯合物中观察到的镧系-OH距离也非常长,并随着离子收缩而增加(2.550-2.732 Å)。未观察到水合和脱水螯合物之间的明显间断;相反,这一系列螯合物似乎代表了水合状态的连续体,其中随着离子半径减小(水合减少),配体逐渐围绕金属离子闭合,金属落入配位笼中。