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ATP 结合和水解驱动的 RFC 催化 PCNA 夹加载反应中的速率决定事件。

ATP binding and hydrolysis-driven rate-determining events in the RFC-catalyzed PCNA clamp loading reaction.

机构信息

Department of Molecular Biology and Biochemistry, Wesleyan University, Middletown, CT 06459, USA.

出版信息

J Mol Biol. 2012 Feb 17;416(2):176-91. doi: 10.1016/j.jmb.2011.12.018. Epub 2011 Dec 13.

DOI:10.1016/j.jmb.2011.12.018
PMID:22197378
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3437054/
Abstract

The multi-subunit replication factor C (RFC) complex loads circular proliferating cell nuclear antigen (PCNA) clamps onto DNA where they serve as mobile tethers for polymerases and coordinate the functions of many other DNA metabolic proteins. The clamp loading reaction is complex, involving multiple components (RFC, PCNA, DNA, and ATP) and events (minimally: PCNA opening/closing, DNA binding/release, and ATP binding/hydrolysis) that yield a topologically linked clamp·DNA product in less than a second. Here, we report pre-steady-state measurements of several steps in the reaction catalyzed by Saccharomyces cerevisiae RFC and present a comprehensive kinetic model based on global analysis of the data. Highlights of the reaction mechanism are that ATP binding to RFC initiates slow activation of the clamp loader, enabling it to open PCNA (at ~2 s(-1)) and bind primer-template DNA (ptDNA). Rapid binding of ptDNA leads to formation of the RFC·ATP·PCNA(open)·ptDNA complex, which catalyzes a burst of ATP hydrolysis. Another slow step in the reaction follows ATP hydrolysis and is associated with PCNA closure around ptDNA (8 s(-1)). Dissociation of PCNA·ptDNA from RFC leads to catalytic turnover. We propose that these early and late rate-determining events are intramolecular conformational changes in RFC and PCNA that control clamp opening and closure, and that ATP binding and hydrolysis switch RFC between conformations with high and low affinities, respectively, for open PCNA and ptDNA, and thus bookend the clamp loading reaction.

摘要

多亚基复制因子 C(RFC)复合物将环状增殖细胞核抗原(PCNA)夹装载到 DNA 上,在那里它们充当聚合酶的可移动系绳,并协调许多其他 DNA 代谢蛋白的功能。夹装载反应很复杂,涉及多个组件(RFC、PCNA、DNA 和 ATP)和事件(至少:PCNA 打开/关闭、DNA 结合/释放和 ATP 结合/水解),这些事件在不到一秒的时间内产生拓扑连接的夹·DNA 产物。在这里,我们报告了酿酒酵母 RFC 催化的反应中几个步骤的预稳态测量,并根据数据的全局分析提出了一个全面的动力学模型。反应机制的要点是,ATP 结合到 RFC 上会引发夹加载器的缓慢激活,使它能够打开 PCNA(~2 s(-1))并结合引物-模板 DNA(ptDNA)。ptDNA 的快速结合导致 RFC·ATP·PCNA(打开)·ptDNA 复合物的形成,该复合物催化 ATP 水解的爆发。反应中的另一个缓慢步骤紧随 ATP 水解,并与围绕 ptDNA 的 PCNA 关闭有关(8 s(-1))。PCNA·ptDNA 从 RFC 上的解离导致催化周转。我们提出,这些早期和晚期的速率决定事件是 RFC 和 PCNA 中的分子内构象变化,控制夹的打开和关闭,并且 ATP 结合和水解分别将 RFC 在具有高和低亲和力的构象之间切换,分别用于打开的 PCNA 和 ptDNA,从而将夹加载反应首尾相连。

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本文引用的文献

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J Mol Biol. 2012 Feb 17;416(2):163-75. doi: 10.1016/j.jmb.2011.12.017. Epub 2011 Dec 13.
2
How a DNA polymerase clamp loader opens a sliding clamp.DNA 聚合酶夹钳加载器如何打开滑动夹钳。
Science. 2011 Dec 23;334(6063):1675-80. doi: 10.1126/science.1211884.
3
The Escherichia coli clamp loader can actively pry open the β-sliding clamp.大肠杆菌夹钳加载器可以主动撬开β滑动夹钳。
细菌与真核生物之间钳位装载机制的差异。
bioRxiv. 2023 Nov 30:2023.11.30.569468. doi: 10.1101/2023.11.30.569468.
4
Unexpected new insights into DNA clamp loaders: Eukaryotic clamp loaders contain a second DNA site for recessed 5' ends that facilitates repair and signals DNA damage: Eukaryotic clamp loaders contain a second DNA site for recessed 5' ends that facilitates repair and signals DNA damage.出乎意料的新见解:真核夹钳加载器包含第二个 DNA 凹陷 5' 端结合位点,有助于修复并发出 DNA 损伤信号:真核夹钳加载器包含第二个 DNA 凹陷 5' 端结合位点,有助于修复并发出 DNA 损伤信号。
Bioessays. 2022 Nov;44(11):e2200154. doi: 10.1002/bies.202200154. Epub 2022 Sep 18.
5
Multistep loading of a DNA sliding clamp onto DNA by replication factor C.复制因子 C 介导 DNA 滑动夹的多步加载到 DNA 上。
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6
Cryo-EM structures reveal that RFC recognizes both the 3'- and 5'-DNA ends to load PCNA onto gaps for DNA repair.低温电子显微镜结构揭示,RFC 可识别 3’- 和 5’-DNA 末端,将 PCNA 加载到 DNA 修复的缺口处以进行修复。
Elife. 2022 Jul 13;11:e77469. doi: 10.7554/eLife.77469.
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