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Histone marks: repairing DNA breaks within the context of chromatin.

Biochemical Society transactions (2012-03-23)
Kyle M Miller, Stephen P Jackson
RESUMEN

Inherited or acquired defects in detecting, signalling or repairing DNA damage are associated with various human pathologies, including immunodeficiencies, neurodegenerative diseases and various forms of cancer. Nuclear DNA is packaged into chromatin and therefore the true in vivo substrate of damaged DNA occurs within the context of chromatin. Our work aims to decipher the mechanisms by which cells detect DNA damage and signal its presence to the DNA-repair and cell-cycle machineries. In particular, much of our work has focused on DNA DSBs (double-strand breaks) that are generated by ionizing radiation and radiomimetic chemicals, and which can also arise when the DNA replication apparatus encounters other DNA lesions. In the present review, we describe some of our recent work, as well as the work of other laboratories, that has identified new chromatin proteins that mediate DSB responses, control SDB processing or modulate chromatin structure at DNA-damage sites. We also aim to survey several recent advances in the field that have contributed to our understanding of how particular histone modifications and involved in DNA repair. It is our hope that by understanding the role of chromatin and its modifications in promoting DNA repair and genome stability, this knowledge will provide opportunities for developing novel classes of drugs to treat human diseases, including cancer.

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Histone Octamer full length human, recombinant, expressed in E. coli, ≥90% (SDS-PAGE)