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A histone H3K36 chromatin switch coordinates DNA double-strand break repair pathway choice.

机译：组蛋白H3K36染色质开关协调DNA双链断裂修复途径的选择。

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DNA double-strand break (DSB) repair is a highly regulated process performed predominantly by non-homologous end joining (NHEJ) or homologous recombination (HR) pathways. How these pathways are coordinated in the context of chromatin is unclear. Here we uncover a role for histone H3K36 modification in regulating DSB repair pathway choice in fission yeast. We find Set2-dependent H3K36 methylation reduces chromatin accessibility, reduces resection and promotes NHEJ, while antagonistic Gcn5-dependent H3K36 acetylation increases chromatin accessibility, increases resection and promotes HR. Accordingly, loss of Set2 increases H3K36Ac, chromatin accessibility and resection, while Gcn5 loss results in the opposite phenotypes following DSB induction. Further, H3K36 modification is cell cycle regulated with Set2-dependent H3K36 methylation peaking in G1 when NHEJ occurs, while Gcn5-dependent H3K36 acetylation peaks in S/G2 when HR prevails. These findings support an H3K36 chromatin switch in regulating DSB repair pathway choice.

机译：DNA双链断裂（DSB）修复是一个高度受调控的过程，主要通过非同源末端连接（NHEJ）或同源重组（HR）途径进行。在染色质的背景下如何协调这些途径尚不清楚。在这里，我们揭示了组蛋白H3K36修饰在调控裂变酵母中DSB修复途径选择中的作用。我们发现Set2依赖的H3K36甲基化减少了染色质的可及性，减少了切除并促进了NHEJ，而拮抗Gcn5依赖的H3K36乙酰化增加了染色质的可及性，增加了切除并促进了HR。因此，Set2的缺失会增加H3K36Ac，染色质的可及性和切除，而Gcn5的缺失会导致DSB诱导后出现相反的表型。此外，当发生NHEJ时，H3K36修饰受到G1中Set2依赖性H3K36甲基化峰的调节，而当HR占优势时，S / G2中Gcn5依赖性H3K36乙酰化峰则受到细胞周期的调节。这些发现支持H3K36染色质开关调节DSB修复途径的选择。

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Pai, CC; Deegan, RS; Subramanian, L; Gal, C; Sarkar, S; Blaikley, EJ; Walker, C; Hulme, L; Bernhard, E; Codlin, S; Bähler, J; Allshire, R; Whitehall, S; Humphrey, TC;
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1. A histone H3K36 chromatin switch coordinates DNA double-strand break repair pathway choice [J] . Chen-Chun Pai, Rachel S. Deegan, Lakxmi Subramanian, Nature Communications . 2014 ,第2016期

机译：组蛋白H3K36染色质开关协调DNA双链断裂修复途径的选择
2. Comprehensive Mapping of Histone Modifications at DNA Double-Strand Breaks Deciphers Repair Pathway Chromatin Signatures [J] . Clouaire Thomas, Rocher Vincent, Lashgari Anahita, Molecular cell . 2018 ,第2期

机译：DNA双链中的组蛋白修饰的综合映射脱离河迪斯修复途径染色质特征
3. Higher-order chromatin structure-dependent repair of DNA double-strand breaks: Involvement of the V(D)J recombination double-strand break repair pathway [J] . Johnston PJ., Stamato TD., Kirchgessner CU., Radiation Research: Official Organ of the Radiation Research Society . 1998 ,第5期

机译：DNA双链断裂的高阶染色质结构依赖性修复：V（D）J重组双链断裂修复途径的参与
4. Repairing DNA double-strand breaks by the prokaryotic non-homologous end-joining pathway [C] . Nigel C. Brissett, Aidan J. Doherty Biochemical Society Symposium . 2009

机译：通过原核非同源终端连接途径修复DNA双链断裂
5. Computational Modeling of Chromatin Organization and Histone Phosphorylation during the Repair of DNA Double-Strand Breaks [D] . Bronk, Gabriel 2019

机译：DNA双链断裂修复过程中染色质组织和组蛋白磷酸化的计算模型。
6. A histone H3K36 chromatin switch coordinates DNA double-strand break repair pathway choice [O] . Chen-Chun Pai, Rachel S. Deegan, Lakxmi Subramanian, -1

机译：组蛋白H3K36染色质开关协调DNA双链断裂修复途径的选择
7. Histone deacetylase inhibitors decrease NHEJ both by acetylation of repair factors and trapping of PARP1 at DNA double-strand breaks in chromatin [O] . Carine Robert, Pratik K. Nagaria, Nisha Pawar, 2016

机译：组蛋白脱乙酰酶抑制剂通过乙酰化因子乙酰化和染色质DNA双链突破的PARP1捕获而降低NHEJ
8. Two Pathways of DNA Double-Strand Break Repair in G1 Cells of Saccharomyces Cerevisiae. [R] . Glazunov, A. V., Glaser, V. M., Kapultsevich, Y. G. 1988

机译：酿酒酵母G1细胞DNa双链断裂修复的两种途径。

A histone H3K36 chromatin switch coordinates DNA double-strand break repair pathway choice.

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