冠醚-卟啉共轭物的铁(III)配合物及其超氧化物与铁(II)形式的可逆结合。
Iron(III) complex of a crown ether-porphyrin conjugate and reversible binding of superoxide to its Iron(II) form.
作者信息
Dürr Katharina, Macpherson Brendan P, Warratz Ralf, Hampel Frank, Tuczek Felix, Helmreich Matthias, Jux Norbert, Ivanović-Burmazović Ivana
机构信息
Institute of Inorganic Chemistry, University of Erlangen-Nürnberg, Egerlandstrasse 1, 91058 Erlangen, Germany.
出版信息
J Am Chem Soc. 2007 Apr 11;129(14):4217-28. doi: 10.1021/ja064984p. Epub 2007 Mar 20.
The synthesis and characterization of the Fe(III) complex of a novel crown ether-porphyrin conjugate, 52-N-(4-aza-18-crown-6)methyl-54,104,154,204-tetra-tert-butyl-56-methyl-5,10,15,20-tetraphenylporphyrin (H2Porph), as well as the corresponding hydroxo, dimeric, Fe(II), and peroxo species are reported. The crystal structure of [FeIII(Porph)Cl].H3O+.FeCl4-.C6H6.EtOH is also reported. [FeIII(Porph)(DMSO)2]+ and K[FeIII(Porph)(O22-)] are high-spin species (Mössbauer data: delta = 0.38 mm s(-1), DeltaEq = 0.83 mm s(-1) and delta = 0.41 mm s(-1), DeltaEq = 0.51 mm s(-1), respectively), whereas in a solution of reduced [FeIII(Porph)(DMSO)2]+ complex the low-spin [FeII(Porph)(DMSO)2] (delta = 0.44 mm s(-1), DeltaEq = 1.32 mm s(-1)) and high-spin [FeII(Porph)(DMSO)] (delta = 1.27 mm s(-1), DeltaEq = 3.13 mm s(-1)) iron(II) species are observed. The reaction of [FeIII(Porph)(DMSO)2]+ with KO2 in DMSO has been investigated. The first reaction step, involving reduction to [FeII(Porph)(DMSO)2], was not investigated in detail because of parallel formation of an Fe(III)-hydroxo species. The kinetics and thermodynamics of the second reaction step, reversible binding of superoxide to the Fe(II) complex and formation of an Fe(III)-peroxo species, were studied in detail (by stopped-flow time-resolved UV/vis measurements in DMSO at 25 degrees C), resulting in kon = 36 500 +/- 500 M(-1) s(-1), koff = 0.21 +/- 0.01 s(-1) (direct measurements using an acid as a superoxide scavenger), and KO2- = (1.7 +/- 0.2) x 10(5) (superoxide binding constant kinetically obtained as kon/koff), (1.4 +/- 0.1) x 10(5), and (9.0 +/- 0.1) x 10(4) M(-1) (thermodynamically obtained in the absence and in the presence of 0.1 M NBu4PF6, respectively). Temperature-dependent kinetic measurements for kon (-40 to 25 degrees C in 3:7 DMSO/CH3CN mixture) yielded the activation parameters DeltaH = 61.2 +/- 0.9 kJ mol(-1) and DeltaS = +48 +/- 3 J K(-1) mol(-1). The observed reversible binding of superoxide to the metal center and the obtained kinetic and thermodynamic parameters are unique. The finding that fine-tuning of the proton concentration can cause the Fe(III)-peroxo species to release O2- and form an Fe(II) species is of biological interest, since this process might occur under very specific physiological conditions.
报道了新型冠醚 - 卟啉共轭物52 - N -(4 - 氮杂 - 18 - 冠 - 6)甲基 - 54,104,154,204 - 四 - 叔丁基 - 56 - 甲基 - 5,10,15,20 - 四苯基卟啉(H2Porph)的铁(III)配合物及其相应的羟基、二聚体、铁(II)和过氧物种的合成与表征。还报道了[FeIII(Porph)Cl].H3O +.FeCl4 -.C6H6.EtOH的晶体结构。[FeIII(Porph)(DMSO)2]+和K[FeIII(Porph)(O22 - )]是高自旋物种(穆斯堡尔数据:δ = 0.38 mm s(-1),ΔEq = 0.83 mm s(-1)和δ = 0.41 mm s(-1),ΔEq = 0.51 mm s(-1)),而在还原的[FeIII(Porph)(DMSO)2]+配合物溶液中观察到低自旋的[FeII(Porph)(DMSO)2](δ = 0.44 mm s(-1),ΔEq = 1.32 mm s(-1))和高自旋的[FeII(Porph)(DMSO)](δ = 1.27 mm s(-1),ΔEq = 3.13 mm s(-1))铁(II)物种。研究了[FeIII(Porph)(DMSO)2]+与KO2在DMSO中的反应。由于同时形成铁(III) - 羟基物种,未详细研究涉及还原为[FeII(Porph)(DMSO)2]的第一步反应。详细研究了第二步反应的动力学和热力学,即超氧化物与铁(II)配合物的可逆结合以及铁(III) - 过氧物种的形成(通过在25℃下于DMSO中进行的停流时间分辨紫外/可见测量),得到kon = 36500±500 M(-1) s(-1),koff = 0.21±0.01 s(-1)(使用酸作为超氧化物清除剂的直接测量),以及KO2 - =(1.7±0.2)×10(5)(通过动力学得到的超氧化物结合常数kon/koff),(1.4±0.1)×10(5),和(9.0±0.1)×10(4) M(-1)(分别在不存在和存在0.1 M NBu4PF6的情况下热力学得到)。在3:7 DMSO/CH3CN混合物中对kon进行的温度依赖性动力学测量(-40至25℃)得到活化参数ΔH = 61.2±0.9 kJ mol(-1)和ΔS = +48±3 J K(-1) mol(-1)。观察到的超氧化物与金属中心的可逆结合以及获得的动力学和热力学参数是独特的。质子浓度的微调可导致铁(III) - 过氧物种释放O2 - 并形成铁(II)物种这一发现具有生物学意义,因为这个过程可能在非常特定的生理条件下发生。
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