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本文引用的文献

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Processing of X-ray diffraction data collected in oscillation mode.振荡模式下收集的X射线衍射数据的处理。
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Tyrosine-kinase Wzc from Escherichia coli possesses an ATPase activity regulated by autophosphorylation.来自大肠杆菌的酪氨酸激酶Wzc具有一种受自身磷酸化调节的ATP酶活性。
FEMS Microbiol Lett. 2007 Sep;274(2):252-9. doi: 10.1111/j.1574-6968.2007.00841.x. Epub 2007 Jul 12.
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The 3D structure of a periplasm-spanning platform required for assembly of group 1 capsular polysaccharides in Escherichia coli.大肠杆菌中组装1型荚膜多糖所需的周质跨膜平台的三维结构。
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Wza the translocon for E. coli capsular polysaccharides defines a new class of membrane protein.大肠杆菌荚膜多糖的转运体Wza定义了一类新的膜蛋白。
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Structural biology of protein tyrosine kinases.蛋白质酪氨酸激酶的结构生物学
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Control of EpsE, the phosphoglycosyltransferase initiating exopolysaccharide synthesis in Streptococcus thermophilus, by EpsD tyrosine kinase.嗜热链球菌中启动胞外多糖合成的磷酸糖基转移酶EpsE受EpsD酪氨酸激酶的调控。
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A novel role for protein-tyrosine kinase Etk from Escherichia coli K-12 related to polymyxin resistance.来自大肠杆菌K-12的蛋白酪氨酸激酶Etk与多粘菌素抗性相关的新作用。
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Biosynthesis and assembly of capsular polysaccharides in Escherichia coli.大肠杆菌中荚膜多糖的生物合成与组装
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10
Periplasmic protein-protein contacts in the inner membrane protein Wzc form a tetrameric complex required for the assembly of Escherichia coli group 1 capsules.内膜蛋白Wzc中的周质蛋白-蛋白接触形成了大肠杆菌1型荚膜组装所需的四聚体复合物。
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大肠杆菌酪氨酸激酶Etk的结构揭示了一种新的激活机制。

Structure of Escherichia coli tyrosine kinase Etk reveals a novel activation mechanism.

作者信息

Lee Daniel C, Zheng Jimin, She Yi-Min, Jia Zongchao

机构信息

Department of Biochemistry, Queen's University, Kingston, Ontario, Canada.

出版信息

EMBO J. 2008 Jun 18;27(12):1758-66. doi: 10.1038/emboj.2008.97. Epub 2008 May 22.

DOI:10.1038/emboj.2008.97
PMID:18497741
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2435132/
Abstract

While protein tyrosine (Tyr) kinases (PTKs) have been extensively characterized in eukaryotes, far less is known about their emerging counterparts in prokaryotes. The inner-membrane Wzc/Etk protein belongs to the bacterial PTK family, which has an important function in regulating the polymerization and transport of virulence-determining capsular polysaccharide (CPS). The kinase uses a unique two-step activation process involving intra-phosphorylation of a Tyr residue, although the molecular mechanism remains unknown. Herein, we report the first crystal structure of a bacterial PTK, the C-terminal kinase domain of Escherichia coli Tyr kinase (Etk) at 2.5-A resolution. The fold of the Etk kinase domain differs markedly from that of eukaryotic PTKs. Based on the observed structure and supporting mass spectrometric evidence of Etk, a unique activation mechanism is proposed that involves the phosphorylated Tyr residue, Y574, at the active site and its specific interaction with a previously unidentified key Arg residue, R614, to unblock the active site. Both in vitro kinase activity and in vivo antibiotics resistance studies using structure-guided mutants further support the novel activation mechanism.

摘要

虽然蛋白质酪氨酸(Tyr)激酶(PTK)在真核生物中已得到广泛研究,但其在原核生物中的对应物却鲜为人知。内膜Wzc/Etk蛋白属于细菌PTK家族,在调节决定毒力的荚膜多糖(CPS)的聚合和运输方面具有重要功能。该激酶采用独特的两步激活过程,涉及Tyr残基的自磷酸化,尽管其分子机制尚不清楚。在此,我们报告了细菌PTK的首个晶体结构,即大肠杆菌Tyr激酶(Etk)的C端激酶结构域,分辨率为2.5埃。Etk激酶结构域的折叠与真核PTK明显不同。基于观察到的Etk结构和支持性的质谱证据,提出了一种独特的激活机制,该机制涉及活性位点处磷酸化的Tyr残基Y574及其与先前未鉴定的关键Arg残基R614的特异性相互作用,以打开活性位点。使用结构导向突变体进行的体外激酶活性和体内抗生素抗性研究进一步支持了这一新的激活机制。