外层氢键网络限制了蓝色蛋白质中铜的配位。

An outer-sphere hydrogen-bond network constrains copper coordination in blue proteins.

作者信息

Machczynski Michael C, Gray Harry B, Richards John H

机构信息

Beckman Institute, MC 139-74, California Institute of Technology, Pasadena, CA 91125-7400, USA.

出版信息

J Inorg Biochem. 2002 Feb;88(3-4):375-80. doi: 10.1016/s0162-0134(02)00364-1.

DOI:10.1016/s0162-0134(02)00364-1

PMID:11897353

Abstract

In azurins and other blue copper proteins with relatively low reduction potentials (E(0) [Cu(II)/Cu(I)]<400 mV vs. normal hydrogen electrode), the folded polypeptide framework constrains both copper(II) and copper(I) in such a way as to tune the reduction potentials to values that differ greatly from those for most copper complexes. Largely conserved networks of hydrogen bonds organize and lock the rest of the folded protein structure to a loop that contains three of the ligands to copper. Changes in hydrogen bonds that allow copper(I) to revert more closely to its preferred geometry [relative to the copper(II) geometry] accordingly lead to an increase in E(0). This paper reports mutations in the ligand loop of amicyanin from P. denitrificans that relax the constraints on ligation for copper(I) and significantly raise E(0) for these mutants (for example 415+/-4 mV) relative to that of the native amicyanin (265+/-4 mV). These mutations also shift the pK(a) of a ligand histidine to below 5 relative to 7.0 in the wild type.

摘要

在天青蛋白和其他还原电位相对较低（相对于标准氢电极，E(0) [Cu(II)/Cu(I)] < 400 mV）的蓝色铜蛋白中，折叠的多肽骨架以某种方式限制铜(II)和铜(I)，从而将还原电位调节到与大多数铜配合物的电位有很大差异的值。大量保守的氢键网络将折叠蛋白结构的其余部分组织并锁定到一个包含铜的三个配体的环上。允许铜(I)更接近其优选几何形状[相对于铜(II)几何形状]的氢键变化相应地导致E(0)增加。本文报道了反硝化假单胞菌中氨腈蛋白配体环的突变，这些突变放宽了对铜(I)配位的限制，并相对于天然氨腈蛋白（265±4 mV）显著提高了这些突变体的E(0)（例如415±4 mV）。相对于野生型中7.0的情况，这些突变还将配体组氨酸的pK(a)移至5以下。

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外层氢键网络限制了蓝色蛋白质中铜的配位。

An outer-sphere hydrogen-bond network constrains copper coordination in blue proteins.

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