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DNA连接酶催化磷酸二酯合成的动力学

Dynamics of phosphodiester synthesis by DNA ligase.

作者信息

Crut Aurélien, Nair Pravin A, Koster Daniel A, Shuman Stewart, Dekker Nynke H

机构信息

Kavli Institute of Nanoscience, Faculty of Applied Sciences, Delft University of Technology, Lorentzweg 1, 2628 CJ Delft, The Netherlands.

出版信息

Proc Natl Acad Sci U S A. 2008 May 13;105(19):6894-9. doi: 10.1073/pnas.0800113105. Epub 2008 May 5.

DOI:10.1073/pnas.0800113105
PMID:18458338
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2383972/
Abstract

Ligases are essential actors in DNA replication, recombination, and repair by virtue of their ability to seal breaks in the phosphodiester backbone. Ligation proceeds through a nicked DNA-adenylate intermediate (AppDNA), which must be sealed quickly to avoid creating a potentially toxic lesion. Here, we take advantage of ligase-catalyzed AMP-dependent incision of a single supercoiled DNA molecule to observe the step of phosphodiester synthesis in real time. An exponentially distributed number of supercoils was relaxed per successful incision-resealing event, from which we deduce the torque-dependent ligation probability per DNA swivel. Premature dissociation of ligase from nicked DNA-adenylate accounted for approximately 10% of the observed events. The ability of ligase to form a C-shaped protein clamp around DNA is a key determinant of ligation probability per turn and the stability of the ligase-AppDNA intermediate. The estimated rate of phosphodiester synthesis by DNA ligase (400 s(-1)) is similar to the high rates of phosphodiester synthesis by replicative DNA polymerases.

摘要

连接酶凭借其封闭磷酸二酯主链断裂的能力,在DNA复制、重组和修复过程中起着至关重要的作用。连接反应通过带切口的DNA-腺苷酸中间体(AppDNA)进行,必须迅速将其封闭以避免产生潜在的毒性损伤。在此,我们利用连接酶催化单个超螺旋DNA分子的AMP依赖性切口,实时观察磷酸二酯合成步骤。每次成功的切口-重新封闭事件会使超螺旋数量呈指数分布地松弛,由此我们推导出每个DNA旋转酶依赖于扭矩的连接概率。连接酶从带切口的DNA-腺苷酸过早解离约占观察到的事件的10%。连接酶在DNA周围形成C形蛋白夹子的能力是每圈连接概率和连接酶-AppDNA中间体稳定性的关键决定因素。DNA连接酶催化磷酸二酯合成的估计速率(400 s⁻¹)与复制性DNA聚合酶催化磷酸二酯合成的高速率相似。

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