红氧还蛋白中的穆斯堡尔效应。简单铁硫蛋白中铁的超精细场的测定。
Mössbauer effect in rubredoxin. Determination of the hyperfine field of the iron in a simple iron-sulphur protein.
作者信息
Rao K K, Evans M C, Cammack R, Hall D O, Thompson C L, Jackson P J, Johnson C E
出版信息
Biochem J. 1972 Oct;129(5):1063-70. doi: 10.1042/bj1291063.
Abstract
- Rubredoxin isolated from the green photosynthetic bacterium Chloropseudomonas ethylica was similar in composition to those from anaerobic fermentative bacteria. Amino acid analysis indicated a minimum molecular weight of 6352 with one iron atom per molecule. 2. The circular-dichroism and electron-paramagnetic-resonance spectra of Ch. ethylica rubredoxin showed many similarities to those of Clostridium pasteurianum, but suggested that there may be subtle differences in the protein conformation about the iron atom. 3. Mössbauer-effect measurements on rubredoxin from Cl. pasteurianum and Ch. ethylica showed that in the oxidized state the iron (high-spin Fe(3+)) has a hyperfine field of 370+/-3kG, whereas in the reduced state (high-spin Fe(2+)) the hyperfine field tensor is anisotropic with a component perpendicular to the symmetry axis of the ion of about -200kG. For the reduced protein the sign of the electric-field gradient is negative, i.e. the ground state of the Fe(2+) is a [unk] orbital. There is a large non-cubic ligand-field splitting (Delta/k=900 degrees K), and a small spin-orbit splitting (D~+4.4cm(-1)) of the Fe(2+) levels. 4. The contributions of core polarization to the hyperfine field in the Fe(3+) and Fe(2+) ions are estimated to be -370 and -300kG respectively. 5. The significance of these results in interpretation of the Mössbauer spectra of other iron-sulphur proteins is discussed.
摘要
- 从绿色光合细菌嗜乙基绿假单胞菌中分离出的红氧还蛋白在组成上与厌氧发酵细菌中的红氧还蛋白相似。氨基酸分析表明其最小分子量为6352,每个分子含有一个铁原子。2. 嗜乙基绿假单胞菌红氧还蛋白的圆二色光谱和电子顺磁共振光谱与巴氏芽孢梭菌的光谱有许多相似之处,但表明围绕铁原子的蛋白质构象可能存在细微差异。3. 对巴氏芽孢梭菌和嗜乙基绿假单胞菌红氧还蛋白的穆斯堡尔效应测量表明,在氧化态下,铁(高自旋Fe(3+))的超精细场为370±3kG,而在还原态(高自旋Fe(2+))下,超精细场张量是各向异性的,垂直于离子对称轴的分量约为-200kG。对于还原态蛋白质,电场梯度的符号为负,即Fe(2+)的基态是一个[未识别]轨道。Fe(2+)能级存在较大的非立方配体场分裂(Δ/k = 900开尔文)和较小的自旋轨道分裂(D~ +4.4厘米(-1))。4. 估计Fe(3+)和Fe(2+)离子中核心极化对超精细场的贡献分别为-370和-300kG。5. 讨论了这些结果在解释其他铁硫蛋白的穆斯堡尔光谱中的意义。
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