T4 DNA连接酶封闭缺口的动力学和热力学。

Alexey V Cherepanov, Simon de Vries
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引用次数: 54

摘要

T4 DNA连接酶是一种依赖于Mg2+和atp的酶,它通过三步封闭DNA缺口:共价结合AMP,将缺口磷酸转腺苷化,催化形成释放AMP的磷酸二酯键。在本动力学研究中,我们进一步详细阐述了反应机理,表明整个连接反应是两个平行过程的叠加:一种是“过程性”连接,在这种连接中,酶会在不与dsDNA分离的情况下进行转腺苷化并封闭缺口;另一种是“非过程性”连接,在这种连接中,酶会参与流产的腺苷化循环(AMP的共价结合、缺口的转腺苷化和解离)。低浓度的ATP (
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kinetics and thermodynamics of nick sealing by T4 DNA ligase.

T4 DNA ligase is an Mg2+-dependent and ATP-dependent enzyme that seals DNA nicks in three steps: it covalently binds AMP, transadenylates the nick phosphate, and catalyses formation of the phosphodiester bond releasing AMP. In this kinetic study, we further detail the reaction mechanism, showing that the overall ligation reaction is a superimposition of two parallel processes: a 'processive' ligation, in which the enzyme transadenylates and seals the nick without dissociating from dsDNA, and a 'nonprocessive' ligation, in which the enzyme takes part in the abortive adenylation cycle (covalent binding of AMP, transadenylation of the nick, and dissociation). At low concentrations of ATP (<10 microM) and when the DNA nick is sealed with mismatching base pairs (e.g. five adjacent), this superimposition resolves into two kinetic phases, a burst ligation (approximately 0.2 min(-1)) and a subsequent slow ligation (approximately 2x10(-3) min(-1)). The relative rate and extent of each phase depend on the concentrations of ATP and Mg2+. The activation energies of self-adenylation (16.2 kcal.mol(-1)), transadenylation of the nick (0.9 kcal.mol(-1)), and nick-sealing (16.3-18.8 kcal.mol(-1)) were determined for several DNA substrates. The low activation energy of transadenylation implies that the transfer of AMP to the terminal DNA phosphate is a spontaneous reaction, and that the T4 DNA ligase-AMP complex is a high-energy intermediate. To summarize current findings in the DNA ligation field, we delineate a kinetic mechanism of T4 DNA ligase catalysis.

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