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铜(II)与富含组氨酸-脯氨酸的糖蛋白肽段的相互作用:形态,稳定性和结合细节。

Copper(II) interaction with peptide fragments of histidine-proline-rich glycoprotein: Speciation, stability and binding details.

机构信息

Istituto di Biostrutture e Bioimmagini-CNR-Catania, Viale A. Doria 6, Catania, Italy.

出版信息

J Inorg Biochem. 2012 Jun;111:59-69. doi: 10.1016/j.jinorgbio.2012.02.027. Epub 2012 Mar 6.

DOI:10.1016/j.jinorgbio.2012.02.027
PMID:22484501
Abstract

GHHPH is the peptide repeat present in histidine-proline rich glycoprotein (HPRG), a plasma glycoprotein involved in angiogenesis process. The copper(II) ions interaction with mono (Ac-GHHPHG-NH(2)) and its bis-repeat (Ac-GHHPHGHHPHG-NH(2)) was investigated by means of potentiometric and spectroscopic techniques. To single out the copper(II) coordination environments of different species formed with Ac-GHHPHG-NH(2), three single point mutated peptides were also synthesized and their ability to coordinate Cu(2+) investigated. Ac-GHHPHG-NH(2) binds Cu(2+) by the imidazole side chain and the amide nitrogen deprotonation that takes place towards the N-terminus. The bis-repeat is able to bind Cu(2+) more efficiently than Ac-GHHPHG-NH(2). This difference is not only due to the number of His residues in the sequence but also to the different binding sites. In fact, the comparison of the potentiometric and spectroscopic data of the copper(II) complexes with a bis-repeatPeg construct Ac-(GHHPHG)-Peg-(GHHPHG)-NH(2) and those of the metal complexes with Ac-HGHH-NH(2), indicates that the central HGHH amino acid sequence is the main copper(II) binding site.

摘要

GHHPH 是组氨酸-脯氨酸丰富糖蛋白 (HPRG) 中存在的肽重复序列,HPRG 是一种参与血管生成过程的血浆糖蛋白。采用电位和光谱技术研究了铜 (II) 离子与单 (Ac-GHHPHG-NH(2)) 和其双重复 (Ac-GHHPHGHHPHG-NH(2)) 的相互作用。为了单独确定 Ac-GHHPHG-NH(2) 与不同物种形成的铜 (II) 配位环境,还合成了三个单点突变肽,并研究了它们与 Cu(2+) 的配位能力。Ac-GHHPHG-NH(2) 通过咪唑侧链和酰胺氮的去质子化与 Cu(2+) 结合,去质子化发生在 N-末端。双重复序列比 Ac-GHHPHG-NH(2) 更有效地结合 Cu(2+)。这种差异不仅归因于序列中组氨酸残基的数量,还归因于不同的结合位点。事实上,对铜 (II) 配合物的电位和光谱数据与双重复 Peg 构建物 Ac-(GHHPHG)-Peg-(GHHPHG)-NH(2) 和 Ac-HGHH-NH(2) 的金属配合物进行比较表明,中心 HGHH 氨基酸序列是主要的铜 (II) 结合位点。

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