The posttranslational modification of clock proteins is critical for the function of circadian oscillators. By genetic analysis of a Drosophila melanogaster circadian clock mutant known as Andante, which has abnormally long circadian periods, we show that casein kinase 2 (CK2) has a role in determining period length. Andante is a mutation of the gene encoding the beta subunit of CK2 and is predicted to perturb CK2beta subunit dimerization. It is associated with reduced beta subunit levels, indicative of a defect in alpha:beta association and production of the tetrameric alpha2:beta2 holoenzyme. Consistent with a direct action on the clock mechanism, we show that CK2beta is localized within clock neurons and that the clock proteins Period (Per) and Timeless (Tim) accumulate to abnormally high levels in the Andante mutant. Furthermore, the nuclear translocation of Per and Tim is delayed in Andante, and this defect accounts for the long-period phenotype of the mutant. These results suggest a function for CK2-dependent phosphorylation in the molecular oscillator.