人脑中肌酸激酶与ADP-Mg2+-NO3- -肌酸过渡态类似物复合物结合的结构研究。

Structural studies of human brain-type creatine kinase complexed with the ADP-Mg2+-NO3- -creatine transition-state analogue complex.

作者信息

Bong Seoung Min, Moon Jin Ho, Nam Ki Hyun, Lee Ki Seog, Chi Young Min, Hwang Kwang Yeon

机构信息

Division of Biotechnology, College of Life Sciences, Korea University, Seoul 136-713, Republic of Korea.

出版信息

FEBS Lett. 2008 Nov 26;582(28):3959-65. doi: 10.1016/j.febslet.2008.10.039. Epub 2008 Oct 31.

DOI:10.1016/j.febslet.2008.10.039

PMID:18977227

Abstract

Creatine kinase is a member of the phosphagen kinase family, which catalyzes the reversible phosphoryl transfer reaction that occurs between ATP and creatine to produce ADP and phosphocreatine. Here, three structural aspects of human-brain-type-creatine-kinase (hBB-CK) were identified by X-ray crystallography: the ligand-free-form at 2.2A; the ADP-Mg2+, nitrate, and creatine complex (transition-state-analogue complex; TSAC); and the ADP-Mg2+-complex at 2.0A. The structures of ligand-bound hBB-CK revealed two different monomeric states in a single homodimer. One monomer is a closed form, either bound to TSAC or the ADP-Mg2+-complex, and the second monomer is an unliganded open form. These structural studies provide a detailed mechanism indicating that the binding of ADP-Mg2+ alone may trigger conformational changes in hBB-CK that were not observed with muscle-type-CK.

摘要

肌酸激酶是磷酸原激酶家族的一员，它催化ATP和肌酸之间发生的可逆磷酸基转移反应，生成ADP和磷酸肌酸。在此，通过X射线晶体学确定了人脑型肌酸激酶（hBB-CK）的三个结构方面：2.2埃分辨率下的无配体形式；ADP-Mg2+、硝酸盐和肌酸复合物（过渡态类似物复合物；TSAC）；以及2.0埃分辨率下的ADP-Mg2+复合物。配体结合的hBB-CK结构在单个同型二聚体中显示出两种不同的单体状态。一种单体是闭合形式，要么与TSAC结合，要么与ADP-Mg2+复合物结合，第二种单体是未结合配体的开放形式。这些结构研究提供了一个详细的机制，表明单独结合ADP-Mg2+可能会触发hBB-CK的构象变化，而在肌肉型肌酸激酶中未观察到这种变化。

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Structural studies of human brain-type creatine kinase complexed with the ADP-Mg2+-NO3- -creatine transition-state analogue complex.人脑中肌酸激酶与ADP-Mg2+-NO3- -肌酸过渡态类似物复合物结合的结构研究。

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人脑中肌酸激酶与ADP-Mg2+-NO3- -肌酸过渡态类似物复合物结合的结构研究。

Structural studies of human brain-type creatine kinase complexed with the ADP-Mg2+-NO3- -creatine transition-state analogue complex.

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