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通过丝氨酸186和谷氨酸439的单突变和交换突变分析揭示肌质(内质)网Ca(2+)-ATP酶的激活剂与核苷酸结合结构域之间相互作用的作用

Roles of interaction between actuator and nucleotide binding domains of sarco(endo)plasmic reticulum Ca(2+)-ATPase as revealed by single and swap mutational analyses of serine 186 and glutamate 439.

作者信息

Liu Xiaoyu, Daiho Takashi, Yamasaki Kazuo, Wang Guoli, Danko Stefania, Suzuki Hiroshi

机构信息

Department of Biochemistry, Asahikawa Medical College, Asahikawa 078-8510, Japan.

出版信息

J Biol Chem. 2009 Sep 11;284(37):25190-8. doi: 10.1074/jbc.M109.034140. Epub 2009 Jul 23.

DOI:10.1074/jbc.M109.034140
PMID:19628462
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2757222/
Abstract

Roles of hydrogen bonding interaction between Ser(186) of the actuator (A) domain and Glu(439) of nucleotide binding (N) domain seen in the structures of ADP-insensitive phosphorylated intermediate (E2P) of sarco(endo)plasmic reticulum Ca(2+)-ATPase were explored by their double alanine substitution S186A/E439A, swap substitution S186E/E439S, and each of these single substitutions. All the mutants except the swap mutant S186E/E439S showed markedly reduced Ca(2+)-ATPase activity, and S186E/E439S restored completely the wild-type activity. In all the mutants except S186E/E439S, the isomerization of ADP-sensitive phosphorylated intermediate (E1P) to E2P was markedly retarded, and the E2P hydrolysis was largely accelerated, whereas S186E/E439S restored almost the wild-type rates. Results showed that the Ser(186)-Glu(439) hydrogen bond stabilizes the E2P ground state structure. The modulatory ATP binding at sub-mm approximately mm range largely accelerated the EP isomerization in all the alanine mutants and E439S. In S186E, this acceleration as well as the acceleration of the ATPase activity was almost completely abolished, whereas the swap mutation S186E/E439S restored the modulatory ATP acceleration with a much higher ATP affinity than the wild type. Results indicated that Ser(186) and Glu(439) are closely located to the modulatory ATP binding site for the EP isomerization, and that their hydrogen bond fixes their side chain configurations thereby adjusts properly the modulatory ATP affinity to respond to the cellular ATP level.

摘要

通过对肌质(内质)网Ca(2+)-ATP酶的ADP不敏感磷酸化中间体(E2P)结构中,驱动蛋白(A)结构域的Ser(186)与核苷酸结合(N)结构域的Glu(439)之间氢键相互作用的作用进行了探索,采用了双丙氨酸取代S186A/E439A、交换取代S186E/E439S以及这些单取代中的每一种。除交换突变体S186E/E439S外,所有突变体的Ca(2+)-ATP酶活性均显著降低,而S186E/E439S完全恢复了野生型活性。在除S186E/E439S外的所有突变体中,ADP敏感磷酸化中间体(E1P)向E2P的异构化显著延迟,E2P水解在很大程度上加速,而S186E/E439S几乎恢复了野生型速率。结果表明,Ser(186)-Glu(439)氢键稳定了E2P基态结构。在亚毫米至毫米范围内的调节性ATP结合在所有丙氨酸突变体和E439S中极大地加速了EP异构化。在S186E中,这种加速以及ATP酶活性的加速几乎完全被消除,而交换突变S186E/E439S恢复了调节性ATP加速,且ATP亲和力比野生型高得多。结果表明,Ser(186)和Glu(439)与用于EP异构化的调节性ATP结合位点紧密相邻,并且它们的氢键固定了它们的侧链构型,从而适当地调节调节性ATP亲和力以响应细胞ATP水平。

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本文引用的文献

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ADENOSINE TRIPHOSPHATE-LINKED CONCENTRATION OF CALCIUM IONS IN A PARTICULATE FRACTION OF RABBIT MUSCLE.兔肌颗粒部分的三磷酸腺苷相关钙离子浓度。
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