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由双链DNA修复的同源重组途径触发的局部组蛋白乙酰化和去乙酰化。

Localized histone acetylation and deacetylation triggered by the homologous recombination pathway of double-strand DNA repair.

作者信息

Tamburini Beth A, Tyler Jessica K

机构信息

Department of Biochemistry and Molecular Genetics, University of Colorado Health Sciences Center at Fitzsimons, P.O. Box 6511, Aurora, CO 80045, USA.

出版信息

Mol Cell Biol. 2005 Jun;25(12):4903-13. doi: 10.1128/MCB.25.12.4903-4913.2005.

DOI:10.1128/MCB.25.12.4903-4913.2005
PMID:15923609
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1140608/
Abstract

Many recent studies have demonstrated recruitment of chromatin-modifying enzymes to double-strand breaks. Instead, we wanted to examine chromatin modifications during the repair of these double-strand breaks. We show that homologous recombination triggers the acetylation of N-terminal lysines on histones H3 and H4 flanking a double-strand break, followed by deacetylation of H3 and H4. Consistent with a requirement for acetylation and deacetylation during homologous recombination, Saccharomyces cerevisiae with substitutions of the acetylatable lysines of histone H4, deleted for the N-terminal tail of histone H3 or H4, deleted for the histone acetyltransferase GCN5 gene or the histone deacetylase RPD3 gene, shows inviability following induction of an HO lesion that is repaired primarily by homologous recombination. Furthermore, the histone acetyltransferases Gcn5 and Esa1 and the histone deacetylases Rpd3, Sir2, and Hst1 are recruited to the HO lesion during homologous recombinational repair. We have also observed a distinct pattern of histone deacetylation at the donor locus during homologous recombination. Our results demonstrate that dynamic changes in histone acetylation accompany homologous recombination and that the ability to modulate histone acetylation is essential for viability following homologous recombination.

摘要

许多近期研究已证明染色质修饰酶会被招募至双链断裂处。相反,我们想要研究这些双链断裂修复过程中的染色质修饰情况。我们发现同源重组会触发双链断裂两侧组蛋白H3和H4 N端赖氨酸的乙酰化,随后是H3和H4的去乙酰化。与同源重组过程中需要乙酰化和去乙酰化一致,组蛋白H4可乙酰化赖氨酸被替换、组蛋白H3或H4的N端尾巴缺失、组蛋白乙酰转移酶GCN5基因或组蛋白去乙酰化酶RPD3基因缺失的酿酒酵母,在诱导主要通过同源重组修复的HO损伤后表现出不可存活性。此外,在同源重组修复过程中,组蛋白乙酰转移酶Gcn5和Esa1以及组蛋白去乙酰化酶Rpd3、Sir2和Hst1会被招募至HO损伤处。我们还观察到同源重组过程中供体位点存在独特的组蛋白去乙酰化模式。我们的结果表明,组蛋白乙酰化的动态变化伴随着同源重组,并且调节组蛋白乙酰化的能力对于同源重组后的生存能力至关重要。

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