Compensation for the absence of the catalytically active half of DNA polymerase ε in yeast by positively selected mutations in CDC28.

IF 3.3 3区 生物学 Genetics Pub Date : 2021-06-24 DOI:10.1093/genetics/iyab060
Elena I Stepchenkova, Anna S Zhuk, Jian Cui, Elena R Tarakhovskaya, Stephanie R Barbari, Polina V Shcherbakova, Dmitrii E Polev, Roman Fedorov, Eugenia Poliakov, Igor B Rogozin, Artem G Lada, Youri I Pavlov
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Abstract

Current eukaryotic replication models postulate that leading and lagging DNA strands are replicated predominantly by dedicated DNA polymerases. The catalytic subunit of the leading strand DNA polymerase ε, Pol2, consists of two halves made of two different ancestral B-family DNA polymerases. Counterintuitively, the catalytically active N-terminal half is dispensable, while the inactive C-terminal part is required for viability. Despite extensive studies of yeast Saccharomyces cerevisiae strains lacking the active N-terminal half, it is still unclear how these strains survive and recover. We designed a robust method for constructing mutants with only the C-terminal part of Pol2. Strains without the active polymerase part show severe growth defects, sensitivity to replication inhibitors, chromosomal instability, and elevated spontaneous mutagenesis. Intriguingly, the slow-growing mutant strains rapidly accumulate fast-growing clones. Analysis of genomic DNA sequences of these clones revealed that the adaptation to the loss of the catalytic N-terminal part of Pol2 occurs by a positive selection of mutants with improved growth. Elevated mutation rates help generate sufficient numbers of these variants. Single nucleotide changes in the cell cycle-dependent kinase gene, CDC28, improve the growth of strains lacking the N-terminal part of Pol2, and rescue their sensitivity to replication inhibitors and, in parallel, lower mutation rates. Our study predicts that changes in mammalian homologs of cyclin-dependent kinases may contribute to cellular responses to the leading strand polymerase defects.

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CDC28正选择突变补偿酵母中DNA聚合酶ε催化活性的缺失。
目前的真核生物复制模型假设前导和滞后DNA链主要由专用的DNA聚合酶复制。DNA聚合酶ε前导链的催化亚基Pol2由两种不同的祖先b家族DNA聚合酶组成的两半组成。与直觉相反,催化活性的n端一半是可有可无的,而非活性的c端部分则是生存所必需的。尽管对缺乏活性n端一半的酵母菌进行了广泛的研究,但仍不清楚这些菌株如何存活和恢复。我们设计了一种仅使用Pol2 c端部分构建突变体的鲁棒方法。没有活性聚合酶部分的菌株表现出严重的生长缺陷,对复制抑制剂敏感,染色体不稳定,自发诱变增加。有趣的是,生长缓慢的突变菌株迅速积累了快速生长的克隆。对这些克隆的基因组DNA序列分析表明,对Pol2的催化n端部分缺失的适应是通过对具有改善生长的突变体的正选择发生的。较高的突变率有助于产生足够数量的这些变异。细胞周期依赖性激酶基因CDC28的单核苷酸变化可以改善缺乏Pol2 n端部分的菌株的生长,并恢复它们对复制抑制剂的敏感性,同时降低突变率。我们的研究预测,周期蛋白依赖性激酶的哺乳动物同源物的变化可能有助于细胞对前导链聚合酶缺陷的反应。
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来源期刊
Genetics
Genetics 生物-遗传学
CiteScore
6.20
自引率
6.10%
发文量
177
期刊介绍: GENETICS is published by the Genetics Society of America, a scholarly society that seeks to deepen our understanding of the living world by advancing our understanding of genetics. Since 1916, GENETICS has published high-quality, original research presenting novel findings bearing on genetics and genomics. The journal publishes empirical studies of organisms ranging from microbes to humans, as well as theoretical work. While it has an illustrious history, GENETICS has changed along with the communities it serves: it is not your mentor''s journal. The editors make decisions quickly – in around 30 days – without sacrificing the excellence and scholarship for which the journal has long been known. GENETICS is a peer reviewed, peer-edited journal, with an international reach and increasing visibility and impact. All editorial decisions are made through collaboration of at least two editors who are practicing scientists. GENETICS is constantly innovating: expanded types of content include Reviews, Commentary (current issues of interest to geneticists), Perspectives (historical), Primers (to introduce primary literature into the classroom), Toolbox Reviews, plus YeastBook, FlyBook, and WormBook (coming spring 2016). For particularly time-sensitive results, we publish Communications. As part of our mission to serve our communities, we''ve published thematic collections, including Genomic Selection, Multiparental Populations, Mouse Collaborative Cross, and the Genetics of Sex.
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