Essential role of Tip60-dependent recruitment of ribonucleotide reductase at DNA damage sites in DNA repair during G1 phase
Hiroyuki Niida(Nagoya City University), Yuko Katsuno(Nagoya City University), Misuzu Sengoku(Nagoya City University), Midori Shimada(Nagoya City University), Megumi Yukawa(Nagoya City University), Masae Ikura(Kyoto University), Tsuyoshi Ikura(Kyoto University), Kazuteru Kohno(Hiroshima University), Hiroki Shima(Hiroshima University), Hidekazu Suzuki(Hiroshima University), Tashiro Satoshi(Hiroshima University), Makoto Nakanishi(Nagoya City University)
Cited by 129Open Access
Abstract
A balanced deoxyribonucleotide (dNTP) supply is essential for DNA repair. Here, we found that ribonucleotide reductase (RNR) subunits RRM1 and RRM2 accumulated very rapidly at damage sites. RRM1 bound physically to Tip60. Chromatin immunoprecipitation analyses of cells with an I-SceI cassette revealed that RRM1 bound to a damage site in a Tip60-dependent manner. Active RRM1 mutants lacking Tip60 binding failed to rescue an impaired DNA repair in RRM1-depleted G1-phase cells. Inhibition of RNR recruitment by an RRM1 C-terminal fragment sensitized cells to DNA damage. We propose that Tip60-dependent recruitment of RNR plays an essential role in dNTP supply for DNA repair.
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