The retention pattern and biochemical characteristics of estrogen receptors in the nuclei of uterine cells were studied as a function of time after the in vivo injection of estradiol (E2) to immature female rats. One hour after the injection of 0.1 mug of tritiated E2, approximately 0.20 pmol per uterus of receptor bound hormone is retained in uterine nuclei. This dose of E2 produces a maximal uterotrophic response. Six hours after E2 administration, uterine nuclei retain 0.04-0.08 pmol of hormone per uterus. Hormone receptor complexes extracted from uterine nuclei 1, 3, and 6 h after in vivo injection of hormone have similar structural and binding characteristics. Receptors extracted at all three times sediment at 5S in high salt gradients and have a dissociation binding constant of approximately 3 nM for E2. The wash-out curves of receptors as a function of salt concentration are identical for uterine nuclei from animals treated for 1 or 6 h with estradiol, suggesting that the nature of the nuclear binding of receptors is not altered during this time interval. Experiments utilizing the injection of unlabeled estradiol, followed by an in vitro exchange procedure with tritiated estradiol, indicated that the total nuclear estrogen receptor sites, i.e., filled and vacant, decreased similarly.