蛋白引物 DNA 聚合酶 LEXE 基序在与进入核苷酸相互作用中的作用。

Role of the LEXE motif of protein-primed DNA polymerases in the interaction with the incoming nucleotide.

机构信息

From the Instituto de Biología Molecular "Eladio Viñuela" (Consejo Superior de Investigaciones Científicas), Centro de Biología Molecular "Severo Ochoa" (Consejo Superior de Investigaciones Científicas-Universidad Autónoma de Madrid), C/Nicolás Cabrera 1, Universidad Autónoma, Cantoblanco, 28049 Madrid, Spain.

出版信息

J Biol Chem. 2014 Jan 31;289(5):2888-98. doi: 10.1074/jbc.M113.530980. Epub 2013 Dec 9.

DOI:10.1074/jbc.M113.530980

PMID:24324256

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3908421/

Abstract

The LEXE motif, conserved in eukaryotic type DNA polymerases, is placed close to the polymerization active site. Previous studies suggested that the second Glu was involved in binding a third noncatalytic ion in bacteriophage RB69 DNA polymerase. In the protein-primed DNA polymerase subgroup, the LEXE motif lacks the first Glu in most cases, but it has a conserved Phe/Trp and a Gly preceding that position. To ascertain the role of those residues, we have analyzed the behavior of mutants at the corresponding ϕ29 DNA polymerase residues Gly-481, Trp-483, Ala-484, and Glu-486. We show that mutations at Gly-481 and Trp-483 hamper insertion of the incoming dNTP in the presence of Mg(2+) ions, a reaction highly improved when Mn(2+) was used as metal activator. These results, together with previous crystallographic resolution of ϕ29 DNA polymerase ternary complex, allow us to infer that Gly-481 and Trp-483 could form a pocket that orients Val-250 to interact with the dNTP. Mutants at Glu-486 are also defective in polymerization and, as mutants at Gly-481 and Trp-483, in the pyrophosphorolytic activity with Mg(2+). Recovery of both reactions with Mn(2+) supports a role for Glu-486 in the interaction with the pyrophosphate moiety of the dNTP.

摘要

LEXE 基序在真核生物 DNA 聚合酶中保守，靠近聚合酶活性位点。先前的研究表明，第二个谷氨酸残基参与结合噬菌体 RB69 DNA 聚合酶中的第三个非催化离子。在蛋白引发的 DNA 聚合酶亚组中，LEXE 基序在大多数情况下缺少第一个谷氨酸残基，但它具有保守的苯丙氨酸/色氨酸和位于该位置之前的甘氨酸。为了确定这些残基的作用，我们分析了相应 ϕ29 DNA 聚合酶残基甘氨酸-481、色氨酸-483、丙氨酸-484 和谷氨酸-486 的突变体的行为。我们表明，甘氨酸-481 和色氨酸-483 的突变阻碍了在镁离子存在下进入 dNTP 的插入，当使用锰离子作为金属激活剂时，该反应得到极大改善。这些结果，以及先前 ϕ29 DNA 聚合酶三元复合物的晶体分辨率，使我们能够推断甘氨酸-481 和色氨酸-483 可以形成一个口袋，使缬氨酸-250定向与 dNTP 相互作用。谷氨酸-486 的突变体也在聚合反应中失活，并且与甘氨酸-481 和色氨酸-483 的突变体一样，在有镁离子的焦磷酸解活性中失活。用锰离子恢复这两种反应支持谷氨酸-486 在与 dNTP 的焦磷酸酯部分的相互作用中的作用。

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