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1.  Mrg15 null and heterozygous mouse embryonic fibroblasts exhibit DNA repair defects post exposure to gamma ionizing radiation 
FEBS letters  2007;581(27):5275-5281.
MRG15 is a core component of the NuA4/Tip60 histone acetyltransferase complex that modifies chromatin structure. We here demonstrate that Mrg15 null and heterozygous mouse embryonic fibroblasts exhibit an impaired DNA damage response post gamma irradiation, when compared to wild-type cells. Defects in DNA repair and cell growth, and delayed recruitment of repair proteins to sites of damage were observed. Formation of phosphorylated H2AX and 53BP1 foci was delayed in Mrg15 mutant versus wild-type cells following irradiation. These data implicate a novel role for MRG15 in DNA damage repair in mammalian cells.
doi:10.1016/j.febslet.2007.10.017
PMCID: PMC2132445  PMID: 17961556
MORF4; NuA4; Sin3-HDAC; ATM; 53BP1
2.  MRG15 Regulates Embryonic Development and Cell Proliferation 
Molecular and Cellular Biology  2005;25(8):2924-2937.
MRG15 is a highly conserved protein, and orthologs exist in organisms from yeast to humans. MRG15 associates with at least two nucleoprotein complexes that include histone acetyltransferases and/or histone deacetylases, suggesting it is involved in chromatin remodeling. To study the role of MRG15 in vivo, we generated knockout mice and determined that the phenotype is embryonic lethal, with embryos and the few stillborn pups exhibiting developmental delay. Immunohistochemical analysis indicates that apoptosis in Mrg15−/− embryos is not increased compared with wild-type littermates. However, the number of proliferating cells is significantly reduced in various tissues of the smaller null embryos compared with control littermates. Cell proliferation defects are also observed in Mrg15−/− mouse embryonic fibroblasts. The hearts of the Mrg15−/− embryos exhibit some features of hypertrophic cardiomyopathy. The increase in size of the cardiomyocytes is most likely a response to decreased growth of the cells. Mrg15−/− embryos appeared pale, and microarray analysis revealed that α-globin gene expression was decreased in null versus wild-type embryos. We determined by chromatin immunoprecipitation that MRG15 was recruited to the α-globin promoter during dimethyl sulfoxide-induced mouse erythroleukemia cell differentiation. These findings demonstrate that MRG15 has an essential role in embryonic development via chromatin remodeling and transcriptional regulation.
doi:10.1128/MCB.25.8.2924-2937.2005
PMCID: PMC1069611  PMID: 15798182

Results 1-2 (2)