Suppressors of Blm-deficiency identify three novel proteins that facilitate DNA repair in Ustilago maydis

IF 3 3区生物学 Q2 GENETICS & HEREDITY

DNA Repair Pub Date : 2024-06-08 DOI:10.1016/j.dnarep.2024.103709

Natalija Azanjac , Mira Milisavljevic , Stefan Stanovcic, Milorad Kojic

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Abstract

To identify new molecular components of the Brh2-governed homologous recombination (HR)-network in the highly radiation-resistant fungus Ustilago maydis, we undertook a genetic screen for suppressors of blm-^KR hydroxyurea (HU)-sensitivity. Twenty DNA-damage sensitive mutants were obtained, three of which showing slow-growth phenotypes. Focusing on the “normally” growing candidates we identified five mutations, two in previously well-defined genes (Rec2 and Rad51) and the remaining three in completely uncharacterized genes (named Rec3, Bls9 and Zdr1). A common feature among these novel factors is their prominent role in DNA repair. Rec3 contains the P-loop NTPase domain which is most similar to that found in U. maydis Rec2 protein, and like Rec2, Rec3 plays critical roles in induced allelic recombination, is crucial for completion of meiosis, and with regard to DNA repair Δrec3 and Δrec2 are epistatic to one another. Importantly, overexpression of Brh2 in Δrec3 can effectively restore DNA-damage resistance, indicating a close functional connection between Brh2 and Rec3. The Bls9 does not seem to have any convincing domains that would give a clue as to its function. Nevertheless, we present evidence that, besides being involved in DNA-repair, Bls9 is also necessary for HR between chromosome homologs. Moreover, Δbls9 showed epistasis with Δbrh2 with respect to killing by DNA-damaging agents. Both, Rec3 and Bls9, play an important role in protecting the genome from mutations. Zdr1 is Cys2-His2 zinc finger (C2H2-ZF) protein, whose loss does not cause a detectable change in HR. Also, the functions of both Bls9 and Zdr1 genes are dispensable in meiosis and sporulation. However, Zdr1 appears to have overlapping activities with Blm and Mus81 in protecting the organism from methyl methanesulfonate- and diepoxybutane-induced DNA-damage. Finally, while deletion of Rec3 and Zdr1 can suppress HU-sensitivity of blm-^KR, Δgen1, and Δmus81 mutants, interestingly loss of Bls9 does not rescue HU-sensitivity of Δgen1.

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Blm缺陷抑制因子发现了三种促进Ustilago maydis DNA修复的新型蛋白质

为了在高辐射抗性真菌 Ustilago maydis 中确定由 Brh2 控制的同源重组（HR）网络的新分子成分，我们进行了一项基因筛选，以寻找 blm-KR 羟基脲（HU）敏感性的抑制因子。我们获得了 20 个对 DNA 损伤敏感的突变体，其中 3 个表现出生长缓慢的表型。针对 "正常 "生长的候选基因，我们发现了 5 个突变基因，其中 2 个位于以前已明确定义的基因中（Rec2 和 Rad51），其余 3 个位于完全未表征的基因中（名为 Rec3、Bls9 和 Zdr1）。这些新因子的共同特点是在 DNA 修复中发挥着突出作用。Rec3 含有与 U. maydis Rec2 蛋白最相似的 P 环 NTPase 结构域，与 Rec2 一样，Rec3 在诱导等位基因重组中起着关键作用，对减数分裂的完成至关重要，而且在 DNA 修复方面，Δrec3 和 Δrec2 互为表里关系。重要的是，在Δrec3中过表达Brh2能有效恢复DNA损伤抗性，这表明Brh2和Rec3之间存在密切的功能联系。Bls9似乎没有任何令人信服的结构域能提供有关其功能的线索。不过，我们提出的证据表明，除了参与DNA修复外，Bls9还是染色体同源物之间HR的必要条件。此外，Δbls9与Δbrh2在DNA损伤剂的杀伤作用方面表现出外显性。Rec3和Bls9在保护基因组免受突变方面都发挥着重要作用。Zdr1是Cys2-His2锌指（C2H2-ZF）蛋白，其缺失不会导致HR发生可检测到的变化。此外，Bls9 和 Zdr1 基因在减数分裂和孢子形成过程中的功能都是不可或缺的。然而，Zdr1 与 Blm 和 Mus81 在保护生物体免受甲基磺酸盐和二环氧丁烷诱导的 DNA 损伤方面似乎有重叠的活动。最后，Rec3和Zdr1的缺失可以抑制blm-KR、Δgen1和Δmus81突变体对HU的敏感性，但有趣的是，Bls9的缺失并不能挽救Δgen1对HU的敏感性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

DNA Repair 生物-毒理学

CiteScore

7.60

自引率

5.30%

发文量

审稿时长

59 days

期刊介绍： DNA Repair provides a forum for the comprehensive coverage of DNA repair and cellular responses to DNA damage. The journal publishes original observations on genetic, cellular, biochemical, structural and molecular aspects of DNA repair, mutagenesis, cell cycle regulation, apoptosis and other biological responses in cells exposed to genomic insult, as well as their relationship to human disease. DNA Repair publishes full-length research articles, brief reports on research, and reviews. The journal welcomes articles describing databases, methods and new technologies supporting research on DNA repair and responses to DNA damage. Letters to the Editor, hot topics and classics in DNA repair, historical reflections, book reviews and meeting reports also will be considered for publication.