人腺苷酸激酶1 (hAK1)及其突变体R138A的核磁共振信号定位

IF 0.4 Q4 BIOCHEMICAL RESEARCH METHODS
Gilhoon Kim, Hwanbong Chang, Hoshik Won
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引用次数: 0

摘要

腺苷酸激酶(AK)酶是ATP和AMP可逆高能磷酸化反应的催化剂,与能量代谢、核酸合成和信号传递有关。该酶具有三个不同的结构域:Core、AMP结合结构域(AMPbd)和Lid结构域(Lid)。由于两个结构域的灵活性,AMPbd和LID的主要作用与构象变化有关。人类AK1的三维结构尚未得到证实,人们已经进行了各种突变实验来确定活性位点。本研究制作了用丙氨酸[138]改变LID结构域精氨酸[138]的AK1R138A,通过核磁共振实验、主链动力学分析和分子对接动力学模拟,寻找其结构变化的原因和底物结合位点。将合成的人肌型腺苷酸激酶1 (hAK1)及其突变体AK1R138A与大肠杆菌重组,并在M9细胞中表达。纯化表达蛋白,最终获得0.520 mM的hAK1和0.252 mM的AK1R138A。通过HNCA、HN(CO)CA等多核多维核磁共振实验对HSQC光谱进行了氨基酸序列分析和信号赋值。我们的化学位移摄动数据显示,LID结构域残基及其周围的丙氨酸[138]和缬氨酸的扰动值(0.22ppm)[179]被认为是与LID结构域的相互通信效应以及hAK1和AK1R138A之间的结构变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NMR Signal Assignments of Human Adenylate Kinase 1 (hAK1) and its R138A Mutant (hAK1R138A)
Adenylate kinase (AK) enzyme which acts as the catalyst of reversible high energy phosphorylation reaction between ATP and AMP which associate with energetic metabolism and nucleic acid synthesis and signal transmission. This enzyme has three distinct domains: Core, AMP binding domain (AMPbd) and Lid domain (LID). The primary role of AMPbd and LID is associated with conformational changes due to flexibility of two domains. Three dimensional structure of human AK1 has not been confirmed and various mutation experiments have been done to determine the active sites. In this study, AK1R138A which is changed arginine[138] of LID domain with alanine[138] was made and conducted with NMR experiments, backbone dynamics analysis and mo-lecular docking dynamic simulation to find the cause of structural change and substrate binding site. Synthetic human muscle type adenylate kinase 1 (hAK1) and its mutant (AK1R138A) were re-combinded with E. coli and expressed in M9 cell. Expressed proteins were purified and finally gained at 0.520 mM hAK1 and 0.252 mM AK1R138A. Multinuclear multidimensional NMR experiments including HNCA, HN(CO)CA, were conducted for amino acid sequence analysis and signal assignments of HSQC spectrum. Our chemical shift perturbation data is shown LID domain residues and around alanine[138] and per-turbation value(0.22ppm) of valine[179] is consid-ered as inter-communication effect with LID domain and the structural change between hAK1 and AK1R138A.
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来源期刊
Journal of the Korean magnetic resonance society
Journal of the Korean magnetic resonance society BIOCHEMICAL RESEARCH METHODS-
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