Conserved arginine residues implicated in ATP hydrolysis, nucleotide-sensing, and inter-subunit interactions in AAA and AAA(+) ATPases

Ogura T; Whiteheart SW; Wilkinson AJ

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Conserved arginine residues implicated in ATP hydrolysis, nucleotide-sensing, and inter-subunit interactions in AAA and AAA(+) ATPases

机译：保守的精氨酸残基牵连在AAA和AAA（+）ATPase中的ATP水解，核苷酸传感和亚基间相互作用

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Arginines are a recurrent feature of the active sites and subunit interfaces of the ATPase domains of AAA and AAA(+) proteins. In particular family members these residues occupy two or more, of four key sites in the vicinity of the ATP cofactor, where they transduce the chemical events of ATP binding and hydrolysis into a mechanochemical outcome. Structural and biochemical analyses have led to the proposal of molecular mechanisms in which these conserved arginines play crucial roles. Comparative studies, however, point to functional divergence for each of these conserved arginines. In this review, we will discuss what is known about these critical arginines and what can be concluded about their role in the function of AAA and AAA(+) proteins

机译：精氨酸是AAA和AAA（+）蛋白ATPase域的活性位点和亚基界面的重复特征。特别是家族成员，这些残基占据了ATP辅因子附近四个关键位点中的两个或多个，在这些位点上，它们将ATP结合和水解的化学事件转导为机械化学结果。结构和生化分析导致提出了分子机制的建议，其中这些保守的精氨酸在其中起着至关重要的作用。然而，比较研究指出，这些保守精氨酸中的每一个的功能差异。在这篇综述中，我们将讨论关于这些关键精氨酸的已知信息以及有关它们在AAA和AAA（+）蛋白功能中的作用的结论。

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来源
《Journal of Structural Biology 》 |2004年第2期| 共7页
作者
Ogura T; Whiteheart SW; Wilkinson AJ;
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正文语种 eng
中图分类组织学 ;
关键词
Aaa family; Atpase; Atp hydrolysis; Inter-subunit interactions; Junction branch migration; Enhancer-binding protein; Escherichia-coli; In-vitro; Mutational analysis; Crystal-structure; Complex; Mechanism; Motif; Ftsh;

机译：Aaa家族;Atpase;Atp水解;亚基间相互作用;结分支迁移;增强子结合蛋白;大肠杆菌;体外;突变分析;晶体结构;复杂;机理;基序;Ftsh;

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专利

1. Conserved arginine residues implicated in ATP hydrolysis, nucleotide-sensing, and inter-subunit interactions in AAA and AAA(+) ATPases [J] . Ogura T, Whiteheart SW, Wilkinson AJ Journal of Structural Biology . 2004 ,第1a2期

机译：保守的精氨酸残基牵连在AAA和AAA（+）ATPase中的ATP水解，核苷酸传感和亚基间相互作用
2. Direct evidence that a conserved arginine in RuvB AAA+ ATPase acts as an allosteric effector for the ATPase activity of the adjacent subunit in a hexamer. [J] . Hishida T, Han YW, Fujimoto S, Proceedings of the National Academy of Sciences of the United States of America . 2004 ,第26期

机译：直接证据表明RuvB AAA + ATPase中的精氨酸是六聚体中相邻亚基ATPase活性的变构效应物。
3. Lytic Water Dynamics Reveal Evolutionarily Conserved Mechanisms of ATP Hydrolysis by TIP49 AAA+ ATPases [J] . Arina Afanasyeva, Anne Schreiber, Angela Hirtreiter, Structure . 2014 ,第4期

机译：溶解水动力学揭示了TIP49 AAA + ATPases水解ATP的进化保守机制。
4. Quantitative proteomic elucidation of the core AAA+ vacuolar protein sorting 4B ATPase protein interaction complex [C] . Stefani N. Thomas, Yunhu Wan, Zhongping Liao, American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2009

机译：核心AAA +真空蛋白分选4B ATP酶蛋白质相互作用复合物的定量蛋白质组学阐明
5. Conformational dynamics in AAA ATPases probed by X-ray structural methods [D] . Davies, Jason M. 2008

机译：X射线结构方法探测的AAA ATPases的构象动力学
6. Lytic Water Dynamics Reveal Evolutionarily Conserved Mechanisms of ATP Hydrolysis by TIP49 AAA+ ATPases [O] . Arina Afanasyeva, Angela Hirtreiter, Anne Schreiber, -1

机译：溶解水动力学揭示了TIP49 AAA + ATPases水解ATP的进化保守机制。
7. Direct evidence that a conserved arginine in RuvB AAA+ ATPase acts as an allosteric effector for the ATPase activity of the adjacent subunit in a hexamer [O] . Hishida, Takashi, Han, Yong-Woon, Fujimoto, Satoko, 2004

机译：直接证据表明RuvB AAA + ATPase中的精氨酸是六聚体中相邻亚基ATPase活性的变构效应物

Conserved arginine residues implicated in ATP hydrolysis, nucleotide-sensing, and inter-subunit interactions in AAA and AAA(+) ATPases

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