Litcius/Paper detail

Histone Phosphorylation in DNA Damage Response

Ping Gong, Zhaohui Guo, Shengping Wang, Shufeng Gao, Qinhong Cao

2025International Journal of Molecular Sciences24 citationsDOIOpen Access PDF

Abstract

The DNA damage response (DDR) is crucial for maintaining genomic stability and preventing the accumulation of mutations that can lead to various diseases, including cancer. The DDR is a complex cellular regulatory network that involves DNA damage sensing, signal transduction, repair, and cell cycle arrest. Modifications in histone phosphorylation play important roles in these processes, facilitating DNA repair factor recruitment, damage signal transduction, chromatin remodeling, and cell cycle regulation. The precise regulation of histone phosphorylation is critical for the effective repair of DNA damage, genomic integrity maintenance, and the prevention of diseases such as cancer, where DNA repair mechanisms are often compromised. Thus, understanding histone phosphorylation in the DDR provides insights into DDR mechanisms and offers potential therapeutic targets for diseases associated with genomic instability, including cancers.

Topics & Concepts

DNA damageDNA repairHistoneGenome instabilityBiologyChromatinCell biologyChromatin remodelingCancer epigeneticsHistone H2APhosphorylationCancer researchDNAGeneticsHistone methyltransferaseDNA Repair MechanismsPARP inhibition in cancer therapyCancer-related Molecular Pathways