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1
Reversible (de)protonation-induced valence inversion in mixed-valent diiron(II,III) complexes.可逆(去)质子化诱导的混合价双核二铁(II,III)配合物中的价态反转。
Inorg Chem. 2011 Jul 18;50(14):6408-10. doi: 10.1021/ic2007414. Epub 2011 Jun 14.
2
A diiron protein autogenerates a valine-phenylalanine cross-link.一种二铁蛋白自动生成缬氨酸-苯丙氨酸交联物。
Science. 2011 May 20;332(6032):929. doi: 10.1126/science.1205687.
3
Crystal structure and spectroscopic studies of a stable mixed-valent state of the hemerythrin-like domain of a bacterial chemotaxis protein.晶体结构和光谱研究细菌趋化蛋白血红素样结构域的稳定混合价态。
Inorg Chem. 2011 Jun 6;50(11):4892-9. doi: 10.1021/ic2001267. Epub 2011 Apr 29.
4
Cyanobacterial alkane biosynthesis further expands the catalytic repertoire of the ferritin-like 'di-iron-carboxylate' proteins.蓝藻烷烃生物合成进一步扩展了铁蛋白样“二铁-羧酸盐”蛋白的催化谱。
Curr Opin Chem Biol. 2011 Apr;15(2):291-303. doi: 10.1016/j.cbpa.2011.02.019.
5
Dioxygen activation in soluble methane monooxygenase.可溶性甲烷单加氧酶中的氧气分子激活。
Acc Chem Res. 2011 Apr 19;44(4):280-8. doi: 10.1021/ar1001473. Epub 2011 Mar 10.
6
Control of metallation and active cofactor assembly in the class Ia and Ib ribonucleotide reductases: diiron or dimanganese?Ⅰa 类和Ⅰb 类核糖核苷酸还原酶中金属化和活性辅助因子组装的控制:二铁还是二锰?
Curr Opin Chem Biol. 2011 Apr;15(2):284-90. doi: 10.1016/j.cbpa.2010.12.001. Epub 2011 Jan 7.
7
A family of diiron monooxygenases catalyzing amino acid beta-hydroxylation in antibiotic biosynthesis.催化抗生素生物合成中氨基酸β-羟化的一族二铁单加氧酶。
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8
The Ferritin-like superfamily: Evolution of the biological iron storeman from a rubrerythrin-like ancestor.铁蛋白样超家族:从类红素铁蛋白样祖先演化而来的生物铁储存蛋白
Biochim Biophys Acta. 2010 Aug;1800(8):691-705. doi: 10.1016/j.bbagen.2010.05.010. Epub 2010 May 27.
9
Insights into the (superoxo)Fe(III)Fe(III) intermediate and reaction mechanism of myo-inositol oxygenase: DFT and ONIOM(DFT:MM) study.肌醇加氧酶的(超氧合)Fe(III)Fe(III)中间态和反应机理的深入研究:DFT 和 ONIOM(DFT:MM)研究。
J Am Chem Soc. 2009 Dec 2;131(47):17206-14. doi: 10.1021/ja905296w.
10
An E3 ligase possessing an iron-responsive hemerythrin domain is a regulator of iron homeostasis.一种具有铁反应血红素结构域的 E3 连接酶是铁稳态的调节剂。
Science. 2009 Oct 30;326(5953):722-6. doi: 10.1126/science.1176326. Epub 2009 Sep 17.

(μ-烷氧基)(μ-羧基)二铁(II,III)模型配合物结构、EPR 和 Mössbauer 表征及其用于混合价态二铁酶活性中心

Structural, EPR, and Mössbauer characterization of (μ-alkoxo)(μ-carboxylato)diiron(II,III) model complexes for the active sites of mixed-valent diiron enzymes.

机构信息

Department of Chemistry and Center for Metals in Biocatalysis, University of Minnesota, Minneapolis, Minnesota 55455, USA.

出版信息

Inorg Chem. 2012 Mar 5;51(5):2917-29. doi: 10.1021/ic2021726. Epub 2012 Feb 23.

DOI:10.1021/ic2021726
PMID:22360600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3298377/
Abstract

To obtain structural and spectroscopic models for the diiron(II,III) centers in the active sites of diiron enzymes, the (μ-alkoxo)(μ-carboxylato)diiron(II,III) complexes Fe(II)Fe(III)(N-Et-HPTB)(O(2)CPh)(NCCH(3))(2)(3) (1) and Fe(II)Fe(III)(N-Et-HPTB)(O(2)CPh)(Cl)(HOCH(3))(2) (2) (N-Et-HPTB = N,N,N',N'-tetrakis(2-(1-ethyl-benzimidazolylmethyl))-2-hydroxy-1,3-diaminopropane) have been prepared and characterized by X-ray crystallography, UV-visible absorption, EPR, and Mössbauer spectroscopies. Fe1-Fe2 separations are 3.60 and 3.63 Å, and Fe1-O1-Fe2 bond angles are 128.0° and 129.4° for 1 and 2, respectively. Mössbauer and EPR studies of 1 show that the Fe(III) (S(A) = 5/2) and Fe(II) (S(B) = 2) sites are antiferromagnetically coupled to yield a ground state with S = 1/2 (g= 1.75, 1.88, 1.96); Mössbauer analysis of solid 1 yields J = 22.5 ± 2 cm(-1) for the exchange coupling constant (H = JS(A)·S(B) convention). In addition to the S = 1/2 ground-state spectrum of 1, the EPR signal for the S = 3/2 excited state of the spin ladder can also be observed, the first time such a signal has been detected for an antiferromagnetically coupled diiron(II,III) complex. The anisotropy of the (57)Fe magnetic hyperfine interactions at the Fe(III) site is larger than normally observed in mononuclear complexes and arises from admixing S > 1/2 excited states into the S = 1/2 ground state by zero-field splittings at the two Fe sites. Analysis of the "D/J" mixing has allowed us to extract the zero-field splitting parameters, local g values, and magnetic hyperfine structural parameters for the individual Fe sites. The methodology developed and followed in this analysis is presented in detail. The spin Hamiltonian parameters of 1 are related to the molecular structure with the help of DFT calculations. Contrary to what was assumed in previous studies, our analysis demonstrates that the deviations of the g values from the free electron value (g = 2) for the antiferromagnetically coupled diiron(II,III) core in complex 1 are predominantly determined by the anisotropy of the effective g values of the ferrous ion and only to a lesser extent by the admixture of excited states into ground-state ZFS terms (D/J mixing). The results for 1 are discussed in the context of the data available for diiron(II,III) clusters in proteins and synthetic diiron(II,III) complexes.

摘要

为了获得二铁(II,III)中心在二铁酶活性部位的结构和光谱模型,制备并通过 X 射线晶体学、紫外可见吸收、EPR 和 Mössbauer 光谱表征了(μ-烷氧基)(μ-羧基)二铁(II,III)配合物[Fe(II)Fe(III)(N-Et-HPTB)(O2CPh)(NCCH3)(2](ClO4)(3)(1)和[Fe(II)Fe(III)(N-Et-HPTB)(O2CPh)(Cl)(HOCH3)](ClO4)(2)(2)(N-Et-HPTB=N,N,N',N'-四(2-(1-乙基苯并咪唑基甲基))-2-羟基-1,3-二氨基丙基)。Fe1-Fe2 分离分别为 3.60 和 3.63Å,Fe1-O1-Fe2 键角分别为 128.0°和 129.4°。1 的 Mössbauer 和 EPR 研究表明,Fe(III)(S(A)= 5/2)和 Fe(II)(S(B)= 2)位点通过反铁磁耦合产生具有 S = 1/2(g= 1.75、1.88、1.96)的基态;1 固体的 Mössbauer 分析得出交换耦合常数 J = 22.5 ± 2 cm-1(H = JS(A)·S(B)公约)。除了 1 的 S = 1/2 基态光谱外,还可以观察到自旋梯级的 S = 3/2 激发态的 EPR 信号,这是首次在反铁磁耦合二铁(II,III)配合物中检测到这种信号。Fe(III)位点的(57)Fe 磁超精细相互作用的各向异性大于单核配合物中通常观察到的各向异性,这是由于两个 Fe 位点的零场分裂使 S > 1/2 激发态混入 S = 1/2 基态。对“D/J”混合的分析允许我们提取各个 Fe 位点的零场分裂参数、局部 g 值和磁超精细结构参数。详细介绍了在这种分析中开发和遵循的方法。1 的自旋哈密顿参数与分子结构有关,借助于密度泛函计算。与先前研究中假设的相反,我们的分析表明,1 中反铁磁耦合二铁(II,III)核的 g 值偏离自由电子值(g = 2)主要取决于亚铁离子有效 g 值的各向异性,而较少受激发态混入基态 ZFS 项(D/J 混合)的影响。讨论了 1 的结果在蛋白质中二铁(II,III)簇和合成二铁(II,III)配合物中可用数据的背景下。