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大肠杆菌γ复合物催化的钳位装载反应中DNA结合、ATP水解和钳位释放的时间相关性。

Temporal correlation of DNA binding, ATP hydrolysis, and clamp release in the clamp loading reaction catalyzed by the Escherichia coli gamma complex.

作者信息

Anderson Stephen G, Thompson Jennifer A, Paschall Christopher O, O'Donnell Mike, Bloom Linda B

机构信息

Department of Biochemistry and Molecular Biology, University of Florida, Gainesville, Florida 32610-0245, USA.

出版信息

Biochemistry. 2009 Sep 15;48(36):8516-27. doi: 10.1021/bi900912a.

DOI:10.1021/bi900912a
PMID:19663416
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2759312/
Abstract

Clamp loaders are multisubunit complexes that use the energy derived from ATP binding and hydrolysis to assemble ring-shaped sliding clamps onto DNA. Sliding clamps in turn tether DNA polymerases to the templates being copied to increase the processivity of DNA synthesis. Here, the rate of clamp release during the clamp loading reaction was measured directly for the first time using a FRET-based assay in which the E. coli gamma complex clamp loader (gamma3deltadelta'chipsi) was labeled with a fluorescent donor, and the beta-clamp was labeled with a nonfluorescent quencher. When a beta.gamma complex is added to DNA, there is a significant time lag before the clamp is released onto DNA. To establish what events take place during this time lag, the timing of clamp release was compared to the timing of DNA binding and ATP hydrolysis by measuring these reactions directly side-by-side in assays. DNA binding is relatively rapid and triggers the hydrolysis of ATP. Both events occur prior to clamp release. Interestingly, the temporal correlation data and simple modeling studies indicate that the clamp loader releases DNA prior to the clamp and that DNA release may be coupled to clamp closing. Clamp release is relatively slow and likely to be the rate-limiting step in the overall clamp loading reaction cycle.

摘要

钳位装载器是多亚基复合体,利用ATP结合和水解产生的能量将环形滑动钳组装到DNA上。滑动钳反过来将DNA聚合酶束缚到正在被复制的模板上,以提高DNA合成的持续合成能力。在此,首次使用基于荧光共振能量转移(FRET)的检测方法直接测量了钳位装载反应过程中钳位释放的速率,其中大肠杆菌γ复合体钳位装载器(γ3δδ'ψ)用荧光供体标记,β钳位用非荧光猝灭剂标记。当将β.γ复合体添加到DNA上时,钳位释放到DNA上之前会有明显的时间延迟。为了确定在这段时间延迟内发生了什么事件,通过在检测中直接并排测量这些反应,将钳位释放的时间与DNA结合和ATP水解的时间进行了比较。DNA结合相对较快,并触发ATP水解。这两个事件都发生在钳位释放之前。有趣的是,时间相关性数据和简单的建模研究表明,钳位装载器在钳位之前释放DNA,并且DNA释放可能与钳位关闭相关联。钳位释放相对较慢,可能是整个钳位装载反应循环中的限速步骤。

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