The effector kinase Chk1 plays a critical role in the DNA damage checkpoint response byphosphorylating regulators of the cell cycle machinery, resulting in an inhibition of cellcycle progression. In the presence of genotoxic stress, the PI3 kinase-like kinase ATRrapidly phosphorylates Chk1 on conserved serine residues, thereby triggering kinaseactivation through the release of an auto-inhibitory region present at its C-terminus andby regulating interactions with other proteins. Recent data have demonstrated anadditional regulatory mechanism of Chk1 functioning: Chk1 binds chromatin inunperturbed cells and dissociates from chromatin in response to DNA damage in amanner that is dependent on PIKK-mediated phosphorylation. Here, I give an overviewof these findings and discuss the implications of these data for our understanding of theexecution of the checkpoint arrest induced after the detection of DNA damage.