A previous study showed that female Fos null mice fail to ovulate even when given gonadotropins, suggesting that ovarian expression of Fos is critical for successful ovulation. However, the expression of FOS and function of FOS have not been determined in the mouse ovary. FOS, a member of the Fos family (Fos, Fosb, Fosl1, and Fosl2), functions as a transcription factor by forming a heterodimer complex with a member of Jun family (Jun, Junb, and Jund). This study demonstrated rapid increases in Fos, along with other Fos and Jun family members, after hCG administration in the ovary of immature PMSG-primed mice and after the LH surge in naturally cycling animals. ChIP-seq analysis identified 1965 FOS-binding genes in granulosa cells collected at 3 h post-hCG, including Pgr, Ptgs2, Tnfiap6, and Edn2, genes known to be involved in the ovulatory process. When super-ovulation was induced, the number of oocytes released was significantly reduced in Esr2