Most of type II restriction endonucleases show an absolute requirement for divalent metal ions as cofactors for DNA cleavage. While Mg(2+) is the natural cofactor other metal ions can substitute it and mediate the catalysis, however Ca(2+) (alone) only supports DNA binding. To investigate the role of Mg(2+) in DNA cleavage by restriction endonucleases, we have studied the Mg(2+) and Mn(2+) concentration dependence of DNA cleavage by SepMI and EhoI. Digestion reactions were carried out at different Mg(2+) and Mn(2+) concentrations at constant ionic strength. These enzymes showed different behavior regarding the ions requirement, SepMI reached near maximal level of activity between 10 and 20mM while no activity was detected in the presence of Mn(2+) and in the presence of Ca(2+) cleavage activity was significantly decreased. However, EhoI was more highly active in the presence of Mn(2+) than in the presence of Mg(2+) and can be activated by Ca(2+). Our results propose the two-metal ion mechanism for EhoI and the one-metal ion mechanism for SepMI restriction endonuclease. The analysis of the kinetic parameters under steady state conditions showed that SepMI had a K(m) value for pTrcHisB DNA of 6.15 nM and a V(max) of 1.79×10(-2)nM min(-1), while EhoI had a K(m) for pUC19 plasmid of 8.66 nM and a V(max) of 2×10(-2)nM min(-1).

译文

大多数II型限制性核酸内切酶显示出对二价金属离子作为DNA切割的辅因子的绝对需求。虽然Mg(2) 是天然的辅因子,但其他金属离子可以替代它并介导催化作用,但是Ca(2) (单独) 仅支持DNA结合。为了研究Mg(2) 在限制性核酸内切酶切割DNA中的作用,我们研究了SepMI和EhoI切割DNA的Mg(2) 和Mn(2) 浓度依赖性。在恒定的离子强度下,在不同的Mg(2) 和Mn(2) 浓度下进行消化反应。这些酶在离子需求方面表现出不同的行为,SepMI达到了接近10至20毫米的最大活性水平,而在Mn(2) 存在下未检测到活性,并且在Ca(2) 存在下裂解活性显着降低。然而,EhoI在Mn(2) 存在下比在Mg(2) 存在下具有更高的活性,并且可以被Ca(2) 激活。我们的结果提出了EhoI的两金属离子机制和SepMI限制性核酸内切酶的一金属离子机制。稳态条件下动力学参数的分析表明,SepMI对pTrcHisB DNA的K(m) 值为6.15 nM,V(max) 为1.79 × 10(-2)nM min(-1),而EhoI对pUC19质粒的K(m) 为8.66 nM,V(max) 为2 × 10(-2)nM min(-1)。

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