Somatic mammalian cells possess well-established S-phase programs with specific regions of the genome replicated at precise times. The ATR–Chk1 pathway plays a central role in these programs, but the mechanism for how Chk1 regulates origin firing remains unknown. We demonstrate here the essential role of cyclin A2–Cdk1 in the regulation of late origin firing. Activity of cyclin A2–Cdk1 was hardly detected at the onset of S phase, but it was obvious at middle to late S phase under unperturbed condition. Chk1 depletion resulted in increased expression of Cdc25A, subsequent hyperactivation of cyclin A2–Cdk1, and abnormal replication at early S phase. Hence, the ectopic expression of cyclin A2–Cdk1AF (constitutively active mutant) fusion constructs resulted in abnormal origin firing, causing the premature appearance of DNA replication at late origins at early S phase. Intriguingly, inactivation of Cdk1 in temperature-sensitive Cdk1 mutant cell lines (FT210) resulted in a prolonged S phase and inefficient activation of late origin firing even at late S phase. Our results thus suggest that cyclin A2–Cdk1 is a key regulator of S-phase programs.