细菌ATP合酶活性的调节:是齿轮变速还是棘爪棘轮机制?

IF 5.5 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY FEBS Journal Pub Date : 2021-05-01 Epub Date: 2020-12-30 DOI:10.1111/febs.15671
Héctor Miranda-Astudillo, Mariel Zarco-Zavala, José J García-Trejo, Diego González-Halphen
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引用次数: 7

摘要

F1 Fo -ATP合成酶是一种分布广泛的ATP合成纳米马达,其中心转子可进行可逆旋转:从Fo上看,顺时针方向(观察者面朝能量转导膜的正侧,向下看膜的负侧),其功能为ATP合成酶,逆时针方向,其功能为质子泵送ATP水解酶。天然存在的酶抑制蛋白发挥的调节作用似乎是通过避免ATP水解而保持ATP合成。Liu等人的工作描述了一个公正、优雅的分析管道,为细菌F1 Fo -ATP合酶的ε-亚基在体内的抑制作用提供了重要的见解。我们讨论了变速与棘爪棘轮机制是否可以解释ε-亚基的调节作用。
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Regulation of bacterial ATP synthase activity: A gear-shifting or a pawl-ratchet mechanism?

The F1 Fo -ATP synthase, a widely distributed nanomotor responsible of ATP synthesis, rotates its central rotor reversibly: In the clockwise direction when viewed from the Fo (with the observer facing the positive side of the energy transducing membrane and looking down into the negative side of the membrane), it functions as ATP synthase, while in counterclockwise sense, it operates as a proton-pumping ATP hydrolase. Regulation exerted by naturally occurring inhibitory proteins of the enzyme appears to function by avoiding ATP hydrolysis while preserving ATP synthesis. The work of Liu et al. describes an unbiased, elegant analytical pipeline that provides important insights into the inhibitory role of the ε-subunit of the bacterial F1 Fo -ATP synthase in vivo. We discuss if a gear-shifting versus a pawl-ratchet mechanism may explain the regulatory role of the ε-subunit.

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来源期刊
FEBS Journal
FEBS Journal 生物-生化与分子生物学
CiteScore
11.70
自引率
1.90%
发文量
375
审稿时长
1 months
期刊介绍: The FEBS Journal is an international journal devoted to the rapid publication of full-length papers covering a wide range of topics in any area of the molecular life sciences. The criteria for acceptance are originality and high quality research, which will provide novel perspectives in a specific area of research, and will be of interest to our broad readership. The journal does not accept papers that describe the expression of specific genes and proteins or test the effect of a drug or reagent, without presenting any biological significance. Papers describing bioinformatics, modelling or structural studies of specific systems or molecules should include experimental data.
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