铁蛋白铁的还原性动员

Reductive mobilisation of ferritin iron.

作者信息

Funk F, Lenders J P, Crichton R R, Schneider W

出版信息

Eur J Biochem. 1985 Oct 1;152(1):167-72. doi: 10.1111/j.1432-1033.1985.tb09177.x.

DOI:10.1111/j.1432-1033.1985.tb09177.x

Abstract

The reductive mobilisation of iron from ferritin, the principal protein of iron storage, was studied. The kinetic characteristics of iron release by dithionite, thioglycollate, and dihydroriboflavin 5'-phosphate (FMNH2) were found to differ widely. The dependence on pH is most pronounced for the dithionite reduction which proceeds 100 times faster at pH 4 than at pH 7. The experimental data can be consistently explained in terms of specific interactions of products or educts with interfacial iron(III) hydroxide of the ferritin core. Surface complexes with the product sulfite are postulated in the dithionite reaction, and with the educt in the thioglycollate reaction. Iron(II) complexes with the radical anion FMN-. are suggested to be involved in the iron release by FMNH2. The mobilisation of iron by a series of thiols of different size and coordinative properties confirmed the importance of surface complex formation. No evidence was found for predominant effects of hindered shell penetration.

摘要

对从铁储存的主要蛋白质铁蛋白中还原动员铁的过程进行了研究。发现连二亚硫酸盐、巯基乙酸盐和二氢核黄素5'-磷酸（FMNH₂）释放铁的动力学特性差异很大。连二亚硫酸盐还原对pH的依赖性最为显著，在pH 4时进行的速度比在pH 7时快100倍。实验数据可以根据产物或反应物与铁蛋白核心界面氢氧化铁（III）的特定相互作用得到一致解释。在连二亚硫酸盐反应中假定与产物亚硫酸盐形成表面络合物，在巯基乙酸盐反应中与反应物形成表面络合物。铁（II）与自由基阴离子FMN⁻形成的络合物被认为参与了FMNH₂释放铁的过程。一系列不同大小和配位性质的硫醇对铁的动员证实了表面络合物形成的重要性。没有发现受阻壳渗透起主要作用的证据。

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铁蛋白铁的还原性动员

Reductive mobilisation of ferritin iron.

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