Golden Melissa L, Whaley Curtis M, Rampersad Marilyn V, Reibenspies Joseph H, Hancock Robert D, Darensbourg Marcetta Y
Departments of Chemistry, Texas A&M University, College Station, Texas 77843, USA.
Inorg Chem. 2005 Feb 21;44(4):875-83. doi: 10.1021/ic0489701.
The nickel(II) complex of an N2S2 ligand, derived from a diazacycle, N,N'-bis(mercaptoethyl)-1,5-diazacycloheptane, (bme-dach)Ni, Ni-1', serves as a metallodithiolate ligand to NiII, CuI, ZnII, Ag, and PbII. The binding ability of the NiN2S2 ligand to the metal ions was established through spectrochemical titrations in aqueous media and compared to classical S-donor ligands. For M = Ni, Zn, Pb, binding constants, log K = ca. 2. were computed for 1:1 Ni-1'/M(solvate) adducts; for Ag+ and Cu+, the 3:2 (Ni-1')3M2 adducts were the first formed products even in water with log beta3,2 values of 26 and >30, respectively. In all cases, the binding ability of Ni-S-R is intermediate between that of a free thiolate and a free thioether. The great specificity for copper over nickel and zinc by N2S2Ni, which serves as a reasonable structural model for the distal nickel of the acetyl CoA synthase active site, relates to biochemical studies of heterogeneity (metal content and type) in various preparations of acetyl CoA synthase enzyme.
一种由二氮杂环N,N'-双(巯基乙基)-1,5-二氮杂环庚烷衍生而来的N2S2配体的镍(II)配合物,(bme-dach)Ni,即Ni-1',可作为金属二硫醇盐配体与NiII、CuI、ZnII、Ag和PbII结合。通过在水介质中的光谱化学滴定确定了NiN2S2配体与金属离子的结合能力,并与经典的硫供体配体进行了比较。对于M = Ni、Zn、Pb,计算出1:1 Ni-1'/M(溶剂化物)加合物的结合常数log K约为2;对于Ag+和Cu+,即使在水中,3:2 (Ni-1')3M2加合物也是首先形成的产物,其logβ3,2值分别为26和>30。在所有情况下,Ni-S-R的结合能力介于游离硫醇盐和游离硫醚之间。N2S2Ni对铜的选择性高于镍和锌,它可作为乙酰辅酶A合酶活性位点远端镍的合理结构模型,这与乙酰辅酶A合酶酶各种制剂中的异质性(金属含量和类型)的生化研究有关。
