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1
The Dot1 histone methyltransferase and the Rad9 checkpoint adaptor contribute to cohesin-dependent double-strand break repair by sister chromatid recombination in Saccharomyces cerevisiae.在酿酒酵母中,Dot1组蛋白甲基转移酶和Rad9检查点衔接蛋白通过姐妹染色单体重组促进依赖黏连蛋白的双链断裂修复。
Genetics. 2009 Jun;182(2):437-46. doi: 10.1534/genetics.109.101899. Epub 2009 Mar 30.
2
Histone H3K56 acetylation, Rad52, and non-DNA repair factors control double-strand break repair choice with the sister chromatid.组蛋白 H3K56 乙酰化、Rad52 和非 DNA 修复因子控制与姐妹染色单体的双链断裂修复选择。
PLoS Genet. 2013;9(1):e1003237. doi: 10.1371/journal.pgen.1003237. Epub 2013 Jan 24.
3
Histone H2A phosphorylation and H3 methylation are required for a novel Rad9 DSB repair function following checkpoint activation.组蛋白H2A磷酸化和H3甲基化是检查点激活后新型Rad9双链断裂修复功能所必需的。
DNA Repair (Amst). 2006 Jun 10;5(6):693-703. doi: 10.1016/j.dnarep.2006.03.005. Epub 2006 May 2.
4
Histone methyltransferase Dot1 and Rad9 inhibit single-stranded DNA accumulation at DSBs and uncapped telomeres.组蛋白甲基转移酶Dot1和Rad9抑制双链断裂处和无帽端粒处单链DNA的积累。
EMBO J. 2008 May 21;27(10):1502-12. doi: 10.1038/emboj.2008.81. Epub 2008 Apr 17.
5
Ctf18 is required for homologous recombination-mediated double-strand break repair.同源重组介导的双链断裂修复需要Ctf18。
Nucleic Acids Res. 2007;35(15):4989-5000. doi: 10.1093/nar/gkm523. Epub 2007 Jul 18.
6
Dot1-dependent histone H3K79 methylation promotes activation of the Mek1 meiotic checkpoint effector kinase by regulating the Hop1 adaptor.依赖 Dot1 的组蛋白 H3K79 甲基化通过调节 Hop1 衔接蛋白促进 Mek1 减数分裂检查点效应激酶的激活。
PLoS Genet. 2013;9(1):e1003262. doi: 10.1371/journal.pgen.1003262. Epub 2013 Jan 31.
7
Docking onto chromatin via the Saccharomyces cerevisiae Rad9 Tudor domain.通过酿酒酵母Rad9 Tudor结构域与染色质对接。
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8
The Saccharomyces cerevisiae PDS1 and RAD9 checkpoint genes control different DNA double-strand break repair pathways.酿酒酵母的PDS1和RAD9检查点基因控制不同的DNA双链断裂修复途径。
DNA Repair (Amst). 2005 Jan 2;4(1):59-69. doi: 10.1016/j.dnarep.2004.08.007.
9
Role of Dot1-dependent histone H3 methylation in G1 and S phase DNA damage checkpoint functions of Rad9.Dot1 依赖性组蛋白 H3 甲基化在 Rad9 的 G1 和 S 期 DNA 损伤检查点功能中的作用
Mol Cell Biol. 2005 Oct;25(19):8430-43. doi: 10.1128/MCB.25.19.8430-8443.2005.
10
Rtt107 phosphorylation promotes localisation to DNA double-stranded breaks (DSBs) and recombinational repair between sister chromatids.Rtt107 磷酸化促进定位到 DNA 双链断裂 (DSB) 以及姐妹染色单体之间的重组修复。
PLoS One. 2011;6(5):e20152. doi: 10.1371/journal.pone.0020152. Epub 2011 May 25.

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DOT1L-mediated RAP80 methylation promotes BRCA1 recruitment to elicit DNA repair.DOT1L 介导的 RAP80 甲基化促进 BRCA1 募集以引发 DNA 修复。
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The chromatin network helps prevent cancer-associated mutagenesis at transcription-replication conflicts.染色质网络有助于防止转录-复制冲突时与癌症相关的突变。
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Role of Histone Methylation in Maintenance of Genome Integrity.组蛋白甲基化在维持基因组完整性中的作用。
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The Chromatin Response to Double-Strand DNA Breaks and Their Repair.染色质对双链 DNA 断裂及其修复的响应。
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Rad9/53BP1 promotes DNA repair via crossover recombination by limiting the Sgs1 and Mph1 helicases.Rad9/53BP1 通过限制 Sgs1 和 Mph1 解旋酶来促进交叉重组修复 DNA。
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Rpd3L and Hda1 histone deacetylases facilitate repair of broken forks by promoting sister chromatid cohesion.Rpd3L 和 Hda1 组蛋白去乙酰化酶通过促进姐妹染色单体黏合促进断裂叉的修复。
Nat Commun. 2019 Nov 15;10(1):5178. doi: 10.1038/s41467-019-13210-5.
8
The Yeast PCNA Unloader Elg1 RFC-Like Complex Plays a Role in Eliciting the DNA Damage Checkpoint.酵母 PCNA 卸载酶 Elg1 RFC 样复合物在引发 DNA 损伤检查点中发挥作用。
mBio. 2019 Jun 11;10(3):e01159-19. doi: 10.1128/mBio.01159-19.
9
The Emerging Role of Cohesin in the DNA Damage Response.黏连蛋白在DNA损伤反应中的新作用
Genes (Basel). 2018 Nov 28;9(12):581. doi: 10.3390/genes9120581.
10
DOT1L and H3K79 Methylation in Transcription and Genomic Stability.DOT1L 和 H3K79 甲基化在转录和基因组稳定性中的作用。
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本文引用的文献

1
The multiple roles of cohesin in meiotic chromosome morphogenesis and pairing.黏连蛋白在减数分裂染色体形态发生和配对中的多重作用。
Mol Biol Cell. 2009 Feb;20(3):1030-47. doi: 10.1091/mbc.e08-06-0637. Epub 2008 Dec 10.
2
The kleisin subunit of cohesin dictates damage-induced cohesion.黏连蛋白的kleisin亚基决定了损伤诱导的黏连。
Mol Cell. 2008 Jul 11;31(1):47-56. doi: 10.1016/j.molcel.2008.06.005.
3
Role of Dot1 in the response to alkylating DNA damage in Saccharomyces cerevisiae: regulation of DNA damage tolerance by the error-prone polymerases Polzeta/Rev1.Dot1在酿酒酵母对烷化DNA损伤的应答中的作用:易出错聚合酶Polzeta/Rev1对DNA损伤耐受性的调控
Genetics. 2008 Jul;179(3):1197-210. doi: 10.1534/genetics.108.089003. Epub 2008 Jun 18.
4
Histone methyltransferase Dot1 and Rad9 inhibit single-stranded DNA accumulation at DSBs and uncapped telomeres.组蛋白甲基转移酶Dot1和Rad9抑制双链断裂处和无帽端粒处单链DNA的积累。
EMBO J. 2008 May 21;27(10):1502-12. doi: 10.1038/emboj.2008.81. Epub 2008 Apr 17.
5
Different genetic requirements for repair of replication-born double-strand breaks by sister-chromatid recombination and break-induced replication.通过姐妹染色单体重组和断裂诱导复制修复复制产生的双链断裂的不同遗传要求。
Nucleic Acids Res. 2007;35(19):6560-70. doi: 10.1093/nar/gkm488. Epub 2007 Sep 28.
6
Rad9 BRCT domain interaction with phosphorylated H2AX regulates the G1 checkpoint in budding yeast.Rad9的BRCT结构域与磷酸化的H2AX相互作用可调节芽殖酵母中的G1期检查点。
EMBO Rep. 2007 Sep;8(9):851-7. doi: 10.1038/sj.embor.7401036. Epub 2007 Aug 3.
7
RSC functions as an early double-strand-break sensor in the cell's response to DNA damage.RSC在细胞对DNA损伤的反应中作为早期双链断裂传感器发挥作用。
Curr Biol. 2007 Aug 21;17(16):1432-7. doi: 10.1016/j.cub.2007.07.035. Epub 2007 Aug 9.
8
Postreplicative formation of cohesion is required for repair and induced by a single DNA break.复制后黏连的形成是修复所必需的,且由单个DNA断裂诱导产生。
Science. 2007 Jul 13;317(5835):242-5. doi: 10.1126/science.1140649.
9
Chromatin dynamics and the preservation of genetic information.染色质动力学与遗传信息的保存
Nature. 2007 Jun 21;447(7147):951-8. doi: 10.1038/nature05980.
10
SMC proteins, new players in the maintenance of genomic stability.SMC蛋白,基因组稳定性维持中的新角色。
Cell Cycle. 2007 Apr 15;6(8):914-8. doi: 10.4161/cc.6.8.4107. Epub 2007 Apr 2.

在酿酒酵母中,Dot1组蛋白甲基转移酶和Rad9检查点衔接蛋白通过姐妹染色单体重组促进依赖黏连蛋白的双链断裂修复。

The Dot1 histone methyltransferase and the Rad9 checkpoint adaptor contribute to cohesin-dependent double-strand break repair by sister chromatid recombination in Saccharomyces cerevisiae.

作者信息

Conde Francisco, Refolio Esther, Cordón-Preciado Violeta, Cortés-Ledesma Felipe, Aragón Luis, Aguilera Andrés, San-Segundo Pedro A

机构信息

Universidad de Salamanca, Salamanca, Spain.

出版信息

Genetics. 2009 Jun;182(2):437-46. doi: 10.1534/genetics.109.101899. Epub 2009 Mar 30.

DOI:10.1534/genetics.109.101899
PMID:19332880
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2691753/
Abstract

Genomic integrity is threatened by multiple sources of DNA damage. DNA double-strand breaks (DSBs) are among the most dangerous types of DNA lesions and can be generated by endogenous or exogenous agents, but they can arise also during DNA replication. Sister chromatid recombination (SCR) is a key mechanism for the repair of DSBs generated during replication and it is fundamental for maintaining genomic stability. Proper repair relies on several factors, among which histone modifications play important roles in the response to DSBs. Here, we study the role of the histone H3K79 methyltransferase Dot1 in the repair by SCR of replication-dependent HO-induced DSBs, as a way to assess its function in homologous recombination. We show that Dot1, the Rad9 DNA damage checkpoint adaptor, and phosphorylation of histone H2A (gammaH2A) are required for efficient SCR. Moreover, we show that Dot1 and Rad9 promote DSB-induced loading of cohesin onto chromatin. We propose that recruitment of Rad9 to DSB sites mediated by gammaH2A and H3K79 methylation contributes to DSB repair via SCR by regulating cohesin binding to damage sites. Therefore, our results contribute to an understanding of how different chromatin modifications impinge on DNA repair mechanisms, which are fundamental for maintaining genomic stability.

摘要

基因组完整性受到多种DNA损伤源的威胁。DNA双链断裂(DSB)是最危险的DNA损伤类型之一,可由内源性或外源性因素产生,但也可在DNA复制过程中出现。姐妹染色单体重组(SCR)是修复复制过程中产生的DSB的关键机制,对维持基因组稳定性至关重要。正确的修复依赖于多种因素,其中组蛋白修饰在对DSB的反应中发挥重要作用。在这里,我们研究组蛋白H3K79甲基转移酶Dot1在依赖复制的HO诱导的DSB的SCR修复中的作用,以此来评估其在同源重组中的功能。我们发现Dot1、Rad9 DNA损伤检查点衔接蛋白以及组蛋白H2A磷酸化(γH2A)是高效SCR所必需的。此外,我们还发现Dot1和Rad9促进DSB诱导的黏连蛋白加载到染色质上。我们提出,由γH2A和H3K79甲基化介导的Rad9募集到DSB位点,通过调节黏连蛋白与损伤位点的结合,有助于通过SCR进行DSB修复。因此,我们的研究结果有助于理解不同的染色质修饰如何影响DNA修复机制,而这些机制对于维持基因组稳定性至关重要。