Updated project metadata. Dynamic recycling and de novo deposition of histones are fundamental for chromatin restoration. Histone post-translational modifications (PTMs) are assumed to have a causal role in establishing distinct chromatin structures. However, it remains unknown how specific histone PTMs are regulated at broken replication fork. To get better insight into histone PTMs during DNA damage response, we combined NCC (Nascent chromatin capture) with SILAC-MS for identification of histone PTMs at replication forks upon CPT (camptothecin).