Three monoclonal antibodies, H222, H226 and D547, which provided evidence of the structural transformation and change in exposure of the functional domains of the oestrogen receptor from fetal guinea-pig uterus upon activation, were used to study the receptor bound to the anti-oestrogens 4-hydroxytamoxifen and ICI 164,384. No differences in the structure of non-activated 4-hydroxytamoxifen- and ICI 164,384-receptor complexes, as compared with the oestradiol-receptor complex, were detected by the three monoclonal antibodies. When heated at 28 degrees C, both anti-oestrogen-receptor complexes became capable of binding the D547 antibody, which reacts selectively with the activated receptor; however, this binding was lower than that of the oestradiol-receptor complex. The interaction with the H226 antibody showed that anti-oestrogens can induce receptor dimerization, but to a lesser extent than oestradiol. In addition, both anti-oestrogen-receptor complexes can bind to DNA-cellulose and are retained in nuclei from intact cells at 28 degrees C, but less efficiently than the oestradiol-receptor complex. On the other hand, the nuclear receptor seems to have a similar dimeric structure when bound to either anti-oestrogens or oestradiol, as detected by the three monoclonal antibodies. The data suggest that 4-hydroxytamoxifen and ICI 164,384 induce and impaired activation of the oestrogen receptor; this difference, although quantitative rather than qualitative, might be related to the partial agonistic action of these anti-oestrogens in the fetal guinea-pig uterus.