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J Biol Chem. 2016 May 27;291(22):11698-705. doi: 10.1074/jbc.M116.728741. Epub 2016 Apr 12.
2
The translesion DNA polymerases Pol ζ and Rev1 are activated independently of PCNA ubiquitination upon UV radiation in mutants of DNA polymerase δ.在DNA聚合酶δ突变体中,跨损伤DNA聚合酶Pol ζ和Rev1在紫外线辐射后独立于增殖细胞核抗原(PCNA)泛素化而被激活。
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3
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Stable interactions between DNA polymerase δ catalytic and structural subunits are essential for efficient DNA repair.DNA 聚合酶 δ 的催化亚基和结构亚基之间的稳定相互作用对于有效的 DNA 修复至关重要。
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DNA polymerase delta is highly processive with proliferating cell nuclear antigen and undergoes collision release upon completing DNA.DNA聚合酶δ与增殖细胞核抗原结合时具有高度持续性,并在完成DNA合成后发生碰撞释放。
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Defect of Fe-S cluster binding by DNA polymerase δ in yeast suppresses UV-induced mutagenesis, but enhances DNA polymerase ζ - dependent spontaneous mutagenesis.酵母中DNA聚合酶δ的铁硫簇结合缺陷可抑制紫外线诱导的诱变,但会增强DNA聚合酶ζ依赖性的自发诱变。
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Compensation for the absence of the catalytically active half of DNA polymerase ε in yeast by positively selected mutations in CDC28.通过在酵母中正向选择 CDC28 中的突变来补偿 DNA 聚合酶 ε 催化活性缺失的一半。
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The processivity factor Pol32 mediates nuclear localization of DNA polymerase delta and prevents chromosomal fragile site formation in Drosophila development.延伸因子 Pol32 介导 DNA 聚合酶 δ 的核定位,防止果蝇发育过程中染色体脆性位点的形成。
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3
Yeast DNA polymerase ζ maintains consistent activity and mutagenicity across a wide range of physiological dNTP concentrations.酵母DNA聚合酶ζ在广泛的生理dNTP浓度范围内保持一致的活性和致突变性。
Nucleic Acids Res. 2017 Feb 17;45(3):1200-1218. doi: 10.1093/nar/gkw1149.

本文引用的文献

1
Resolving individual steps of Okazaki-fragment maturation at a millisecond timescale.在毫秒时间尺度上解析冈崎片段成熟的各个步骤。
Nat Struct Mol Biol. 2016 May;23(5):402-8. doi: 10.1038/nsmb.3207. Epub 2016 Apr 11.
2
Stability of the human polymerase δ holoenzyme and its implications in lagging strand DNA synthesis.人类聚合酶δ全酶的稳定性及其在滞后链DNA合成中的意义。
Proc Natl Acad Sci U S A. 2016 Mar 29;113(13):E1777-86. doi: 10.1073/pnas.1523653113. Epub 2016 Mar 14.
3
Mechanism of Concerted RNA-DNA Primer Synthesis by the Human Primosome.人类引发体协同进行RNA-DNA引物合成的机制
J Biol Chem. 2016 May 6;291(19):10006-20. doi: 10.1074/jbc.M116.717405. Epub 2016 Mar 14.
4
Who Is Leading the Replication Fork, Pol ε or Pol δ?谁在引领复制叉,聚合酶ε还是聚合酶δ?
Mol Cell. 2016 Feb 18;61(4):492-493. doi: 10.1016/j.molcel.2016.01.017.
5
Polymerase δ replicates both strands after homologous recombination-dependent fork restart.在同源重组依赖性叉状结构重新启动后,聚合酶δ复制两条链。
Nat Struct Mol Biol. 2015 Nov;22(11):932-8. doi: 10.1038/nsmb.3100. Epub 2015 Oct 5.
6
A Major Role of DNA Polymerase δ in Replication of Both the Leading and Lagging DNA Strands.DNA聚合酶δ在DNA前导链和滞后链复制中的主要作用
Mol Cell. 2015 Jul 16;59(2):163-175. doi: 10.1016/j.molcel.2015.05.038. Epub 2015 Jul 2.
7
Coordinated DNA Replication by the Bacteriophage T4 Replisome.噬菌体T4复制体的协同DNA复制
Viruses. 2015 Jun 19;7(6):3186-200. doi: 10.3390/v7062766.
8
Fidelity consequences of the impaired interaction between DNA polymerase epsilon and the GINS complex.DNA聚合酶ε与GINS复合物之间相互作用受损的保真度后果。
DNA Repair (Amst). 2015 May;29:23-35. doi: 10.1016/j.dnarep.2015.02.007. Epub 2015 Feb 16.
9
A global profile of replicative polymerase usage.复制性聚合酶使用情况的全球概况。
Nat Struct Mol Biol. 2015 Mar;22(3):192-198. doi: 10.1038/nsmb.2962. Epub 2015 Feb 9.
10
The distribution of the numbers of mutants in bacterial populations.细菌群体中突变体数量的分布。
J Genet. 1949 Dec;49(3):264-85. doi: 10.1007/BF02986080.

病毒DNA聚合酶对酵母基因组的高效复制

Proficient Replication of the Yeast Genome by a Viral DNA Polymerase.

作者信息

Stodola Joseph L, Stith Carrie M, Burgers Peter M

机构信息

From the Department of Biochemistry and Molecular Biophysics, Washington University School of Medicine, St. Louis, Missouri 63110.

From the Department of Biochemistry and Molecular Biophysics, Washington University School of Medicine, St. Louis, Missouri 63110

出版信息

J Biol Chem. 2016 May 27;291(22):11698-705. doi: 10.1074/jbc.M116.728741. Epub 2016 Apr 12.

DOI:10.1074/jbc.M116.728741
PMID:27072134
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4882438/
Abstract

DNA replication in eukaryotic cells requires minimally three B-family DNA polymerases: Pol α, Pol δ, and Pol ϵ. Pol δ replicates and matures Okazaki fragments on the lagging strand of the replication fork. Saccharomyces cerevisiae Pol δ is a three-subunit enzyme (Pol3-Pol31-Pol32). A small C-terminal domain of the catalytic subunit Pol3 carries both iron-sulfur cluster and zinc-binding motifs, which mediate interactions with Pol31, and processive replication with the replication clamp proliferating cell nuclear antigen (PCNA), respectively. We show that the entire N-terminal domain of Pol3, containing polymerase and proofreading activities, could be effectively replaced by those from bacteriophage RB69, and could carry out chromosomal DNA replication in yeast with remarkable high fidelity, provided that adaptive mutations in the replication clamp PCNA were introduced. This result is consistent with the model that all essential interactions for DNA replication in yeast are mediated through the small C-terminal domain of Pol3. The chimeric polymerase carries out processive replication with PCNA in vitro; however, in yeast, it requires an increased involvement of the mutagenic translesion DNA polymerase ζ during DNA replication.

摘要

真核细胞中的DNA复制至少需要三种B家族DNA聚合酶:Polα、Polδ和Polϵ。Polδ在复制叉的后随链上复制并成熟冈崎片段。酿酒酵母Polδ是一种由三个亚基组成的酶(Pol3-Pol31-Pol32)。催化亚基Pol3的一个小的C末端结构域同时携带铁硫簇和锌结合基序,它们分别介导与Pol31的相互作用以及与复制夹增殖细胞核抗原(PCNA)的连续复制。我们发现,Pol3的整个N末端结构域,包含聚合酶和校对活性,可以被噬菌体RB69的相应结构域有效替代,并且在引入复制夹PCNA的适应性突变后,能够在酵母中以极高的保真度进行染色体DNA复制。这一结果与酵母中DNA复制的所有关键相互作用都通过Pol3的小C末端结构域介导的模型一致。嵌合聚合酶在体外与PCNA进行连续复制;然而,在酵母中,它在DNA复制过程中需要诱变跨损伤DNA聚合酶ζ更多地参与。