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钴(II)-星蓝蛋白的制备及光谱研究

Preparation and spectroscopic studies of cobalt(II)-stellacyanin.

作者信息

McMillin D R, Holwerda R A, Gray H B

出版信息

Proc Natl Acad Sci U S A. 1974 Apr;71(4):1339-41. doi: 10.1073/pnas.71.4.1339.

DOI:10.1073/pnas.71.4.1339
PMID:4275396
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC388223/
Abstract

The cobalt(II) derivative of the "blue" copper protein stellacyanin has been prepared, and its visible-ultraviolet spectrum is reported. Tryptophan fluorescence quenching and p-mercuribenzoate titration results strongly suggest that Co(II) and Cu(II) compete for the same stellacyanin binding site and that a cysteine sulfur atom is coordinated in both cases. This interpretation is supported by the finding of an intense band at 355 nm in Co(II)-stellacyanin attributable to a charge transfer transition of the RS(-) --> Co(II) type. The visible absorption spectrum of Co(II)-stellacyanin exhibits band maxima at 540, 625, and 655 nm. These bands are attributable to d-d transitions originating in a high-spin Co(II) center. It is suggested that a correspondence exists between charge transfer bands observed at 355 and 300 nm in the Co(II) derivative to those found at 604 and 450 nm in the native protein. It is concluded that the intense 604-nm peak in Cu(II)-stellacyanin is attributable to a cys-S --> Cu(II) charge transfer transition.

摘要

制备了“蓝色”铜蛋白星蓝蛋白的钴(II)衍生物,并报道了其可见-紫外光谱。色氨酸荧光猝灭和对氯汞苯甲酸滴定结果有力地表明,Co(II)和Cu(II)竞争相同的星蓝蛋白结合位点,并且在两种情况下半胱氨酸硫原子均参与配位。在Co(II)-星蓝蛋白中355nm处发现一个强吸收带,这一发现支持了上述解释,该吸收带归因于RS(-)→Co(II)型的电荷转移跃迁。Co(II)-星蓝蛋白的可见吸收光谱在540、625和655nm处呈现吸收带最大值。这些吸收带归因于源自高自旋Co(II)中心的d-d跃迁。有人提出,在Co(II)衍生物中355和300nm处观察到的电荷转移带与天然蛋白中604和450nm处的电荷转移带存在对应关系。得出的结论是,Cu(II)-星蓝蛋白中604nm处的强峰归因于cys-S→Cu(II)电荷转移跃迁。

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