Miskowski V, Tang S P, Spiro T G, Shapiro E, Moss T H
Biochemistry. 1975 Mar 25;14(6):1244-50. doi: 10.1021/bi00677a024.
Tunable dye laser excitation in the intense similar to 600-nm absorption band of azurin, plastocyanin, and ceruloplasmin provides resonance enhanced Raman spectra. They consist of a complex set of bands, at least three or four in number, between 350 and 473 cm-1, which are assignable to Cu-N or Cu-O bond stretching, and a weak band near 270 cm-1, which probably arises from Cu-S stretching. A weak band at 765 cm-1 found in plastocyanin may arise from C-S stretching. Analysis of the Raman intensity pattern, as well as of the nature of the resonant electronic transition, leads to a model of the "blue" copper site involving approximately trigonal-bipyramidal coordination, with a sulfur and two nitrogen ligands in the equatorial plane, and less strongly bound nitrogen or oxygen ligands at axial positions. This arrangement would be well poised for stabilization of Cu(I) upon reduction.
在强度类似于600纳米的天青蛋白、质体蓝素和铜蓝蛋白吸收带中进行可调谐染料激光激发,可提供共振增强拉曼光谱。它们由一组复杂的谱带组成,数量至少为三到四条,位于350至473厘米-1之间,可归因于Cu-N或Cu-O键的拉伸,以及一条位于270厘米-1附近的弱谱带,可能源于Cu-S拉伸。在质体蓝素中发现的位于765厘米-1处的弱谱带可能源于C-S拉伸。对拉曼强度模式以及共振电子跃迁性质的分析,得出了一个“蓝色”铜位点的模型,该模型涉及近似三角双锥配位,在赤道平面上有一个硫和两个氮配体,在轴向位置有结合较弱的氮或氧配体。这种排列有利于还原时Cu(I)的稳定。