The Dependence of the Copper Dissociation Rate Constants from Human(Serum)- and Ονο-Transferrin on pH and the Anions

BioInorganic Reaction Mechanisms Pub Date : 1999-01-01 DOI:10.1515/irm-1999-0205

J. Hirose, I. Fujiwara, K. Iio, Shinichi Masunari, M. Minakami, L. Messori, K. Hiromi

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Abstract

Abstract Transferrin is an iron carrier protein. It is known that the conformational change in the protein moiety induced by binding of nonsynergistic anions influences the metal release rate constants from metal transferrins. The copper dissociation rate constants of dicupric human(serum)-transferrin and ovo-transferrin were measured under the conditions of various pHs and ionic strengths to estimate the residues which interact with nonsynergistic anions. The pH and the ionic strength dependence of the copper dissociation rate constants in the N-lobe of serum (human)-transferrin and both lobes of ovo-Tf clearly show that some residue which has a pKa around 6.0 is involved in the binding of nonsynergistic anions and accelerating the copper dissociation rate. In the C-lobe of serum(human)-Tf, the copper dissociation rate constants were almost independent of pH between pH 7.0 and 9.0, but the dissociation rates were constantly accelerated by the presence of 0.1 Μ KCl. This behavior suggests that the residue in the C-lobe of serum(human)-Tf is constantly protonated between pH 7.0 and 9.0 and is involved in the binding of nonsynergistic anions binding site.

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人(血清)-和Ονο-Transferrin中铜解离速率常数对pH和阴离子的依赖

转铁蛋白是一种铁载体蛋白。已知非协同阴离子结合引起的蛋白质片段的构象变化影响金属转铁蛋白的金属释放速率常数。测定了在不同ph值和离子强度条件下，双尿酸人(血清)转铁蛋白和卵转铁蛋白的铜解离速率常数，以估计与非协同阴离子相互作用的残基。血清(人)转铁蛋白n叶和卵形转铁蛋白两个叶中铜解离速率常数的pH和离子强度依赖性表明，一些pKa在6.0左右的残基参与了非协同阴离子的结合，加速了铜的解离速率。在血清c叶(人)-Tf中，在pH 7.0 ~ 9.0之间，铜的解离速率常数几乎与pH无关，但0.1 Μ KCl的存在使解离速率不断加快。这表明血清(人)-Tf c叶残基在pH 7.0 ~ 9.0之间持续质子化，参与非协同阴离子结合位点的结合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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BioInorganic Reaction Mechanisms

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