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本文引用的文献

1
Timing of inorganic phosphate release modulates the catalytic activity of ATP-driven rotary motor protein.无机磷酸盐释放的时间调节 ATP 驱动的旋转马达蛋白的催化活性。
Nat Commun. 2014 Apr 1;5:3486. doi: 10.1038/ncomms4486.
2
Anatomy of F1-ATPase powered rotation.F1-ATP 酶驱动旋转的结构。
Proc Natl Acad Sci U S A. 2014 Mar 11;111(10):3715-20. doi: 10.1073/pnas.1317784111. Epub 2014 Feb 24.
3
Adenosine triphosphate hydrolysis mechanism in kinesin studied by combined quantum-mechanical/molecular-mechanical metadynamics simulations.通过量子力学/分子力学组合元动力学模拟研究驱动蛋白中三磷酸腺苷的水解机制。
J Am Chem Soc. 2013 Jun 19;135(24):8908-19. doi: 10.1021/ja401540g. Epub 2013 Jun 10.
4
High-resolution single-molecule characterization of the enzymatic states in Escherichia coli F1-ATPase.高分辨率单分子技术解析大肠杆菌 F1-ATP 酶的酶学构象变化。
Philos Trans R Soc Lond B Biol Sci. 2012 Dec 24;368(1611):20120023. doi: 10.1098/rstb.2012.0023. Print 2013 Feb 5.
5
Role of the DELSEED loop in torque transmission of F1-ATPase.DELSEED 环在 F1-ATP 酶扭矩传递中的作用。
Biophys J. 2012 Sep 5;103(5):970-8. doi: 10.1016/j.bpj.2012.06.054.
6
Molecular mechanism of ATP hydrolysis in F1-ATPase revealed by molecular simulations and single-molecule observations.分子模拟和单分子观测揭示 F1-ATP 酶中 ATP 水解的分子机制。
J Am Chem Soc. 2012 May 23;134(20):8447-54. doi: 10.1021/ja211027m. Epub 2012 May 11.
7
Principal role of the arginine finger in rotary catalysis of F1-ATPase.精氨酸指在 F1-ATP 酶旋转催化中的主要作用。
J Biol Chem. 2012 Apr 27;287(18):15134-42. doi: 10.1074/jbc.M111.328153. Epub 2012 Mar 8.
8
Electrostatic origin of the mechanochemical rotary mechanism and the catalytic dwell of F1-ATPase.静电起源的机械化学旋转机制和 F1-ATP 酶的催化停留。
Proc Natl Acad Sci U S A. 2011 Dec 20;108(51):20550-5. doi: 10.1073/pnas.1117024108. Epub 2011 Dec 5.
9
Torque generation and utilization in motor enzyme F0F1-ATP synthase: half-torque F1 with short-sized pushrod helix and reduced ATP Synthesis by half-torque F0F1.在 F0F1-ATP 合酶的马达酶中产生和利用扭矩:短推拉杆螺旋的半扭矩 F1 和半扭矩 F0F1 减少 ATP 合成。
J Biol Chem. 2012 Jan 13;287(3):1884-91. doi: 10.1074/jbc.M111.305938. Epub 2011 Nov 28.
10
Torque generation in F1-ATPase devoid of the entire amino-terminal helix of the rotor that fills half of the stator orifice.在缺乏整个转子氨基末端螺旋的 F1-ATP 酶中产生扭矩,该螺旋填充定子孔的一半。
Biophys J. 2011 Jul 6;101(1):188-95. doi: 10.1016/j.bpj.2011.05.008.

F1-ATP酶旋转催化机制的稳健性

Robustness of the rotary catalysis mechanism of F1-ATPase.

作者信息

Watanabe Rikiya, Matsukage Yuki, Yukawa Ayako, Tabata Kazuhito V, Noji Hiroyuki

机构信息

From the Department of Applied Chemistry, University of Tokyo, PRESTO, Japan Science and Technology Agency, Bunkyo-ku, Tokyo 113-8656, and.

the Institute of Scientific and Industrial Research, Osaka University, Ibaraki, Osaka 567-0047, Japan.

出版信息

J Biol Chem. 2014 Jul 11;289(28):19331-40. doi: 10.1074/jbc.M114.569905. Epub 2014 May 29.

DOI:10.1074/jbc.M114.569905
PMID:24876384
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4094045/
Abstract

F1-ATPase (F1) is the rotary motor protein fueled by ATP hydrolysis. Previous studies have suggested that three charged residues are indispensable for catalysis of F1 as follows: the P-loop lysine in the phosphate-binding loop, GXXXXGK(T/S); a glutamic acid that activates water molecules for nucleophilic attack on the γ-phosphate of ATP (general base); and an arginine directly contacting the γ-phosphate (arginine finger). These residues are well conserved among P-loop NTPases. In this study, we investigated the role of these charged residues in catalysis and torque generation by analyzing alanine-substituted mutants in the single-molecule rotation assay. Surprisingly, all mutants continuously drove rotary motion, even though the rotational velocity was at least 100,000 times slower than that of wild type. Thus, although these charged residues contribute to highly efficient catalysis, they are not indispensable to chemo-mechanical energy coupling, and the rotary catalysis mechanism of F1 is far more robust than previously thought.

摘要

F1 - ATP酶(F1)是一种由ATP水解提供能量的旋转马达蛋白。先前的研究表明,有三个带电荷的残基对于F1的催化作用必不可少,具体如下:磷酸结合环中的P环赖氨酸,序列为GXXXXGK(T/S);一个激活水分子以对ATP的γ - 磷酸进行亲核攻击的谷氨酸(通用碱);以及一个直接接触γ - 磷酸的精氨酸(精氨酸指)。这些残基在P环NTP酶中高度保守。在本研究中,我们通过在单分子旋转测定中分析丙氨酸取代突变体,研究了这些带电荷残基在催化作用和扭矩产生中的作用。令人惊讶的是,所有突变体都能持续驱动旋转运动,尽管旋转速度比野生型至少慢100,000倍。因此,尽管这些带电荷残基有助于高效催化,但它们对于化学机械能耦合并非不可或缺,而且F1的旋转催化机制比之前认为的要强大得多。