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Literature DB >> 16377563

MDC1 directly binds phosphorylated histone H2AX to regulate cellular responses to DNA double-strand breaks.

Manuel Stucki¹, Julie A Clapperton, Duaa Mohammad, Michael B Yaffe, Stephen J Smerdon, Stephen P Jackson.

Abstract

Histone variant H2AX phosphorylation in response to DNA damage is the major signal for recruitment of DNA-damage-response proteins to regions of damaged chromatin. Loss of H2AX causes radiosensitivity, genome instability, and DNA double-strand-break repair defects, yet the mechanisms underlying these phenotypes remain obscure. Here, we demonstrate that mammalian MDC1/NFBD1 directly binds to phospho-H2AX (gammaH2AX) by specifically interacting with the phosphoepitope at the gammaH2AX carboxyl terminus. Moreover, through a combination of biochemical, cell-biological, and X-ray crystallographic approaches, we reveal the molecular details of the MDC1/NFBD1-gammaH2AX complex. These data provide compelling evidence that the MDC1/NFBD1 BRCT repeat domain is the major mediator of gammaH2AX recognition following DNA damage. We further show that MDC1/NFBD1-gammaH2AX complex formation regulates H2AX phosphorylation and is required for normal radioresistance and efficient accumulation of DNA-damage-response proteins on damaged chromatin. Thus, binding of MDC1/NFBD1 to gammaH2AX plays a central role in the mammalian response to DNA damage.

Entities: Gene Species

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Year: 2005 PMID： 16377563 DOI： 10.1016/j.cell.2005.09.038

Source DB: PubMed Journal: Cell ISSN： 0092-8674 Impact factor: 41.582

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Cited

511 in total

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