This review examines the evidence for a central role of oestrogen receptor beta (ERbeta or ESR2 as listed in the MGI Database) in folliculogenesis and hence reproductive biology. Knockout mouse models have been a valuable resource in this respect. The ERbeta-null mouse exhibits a granulosa cell phenotype associated with the partial arrest of folliculogenesis and ovulatory dysfunction. Phyto-oestrogens such as genistein, which preferentially activate ERbeta, have been shown to alleviate the ovarian phenotype of the oestrogen-depleted aromatase knockout mouse. In normal adult mice, genistein has been shown to cause reproductive defectives following neonatal administration. Studies of ovarian cancer have also informed the literature. A decline in ERbeta levels in epithelial ovarian cancers has been hypothesised to be associated with severity of disease and prognosis. Whereas the abundant expression of ERbeta in granulosa cell tumours (GCT) of the ovary and evidence that ERbeta signalling is transrepressed by the nuclear factor-kappaB pathway in GCT cell lines suggest a pathogenetic role for ERbeta in GCT. In recent years, studies into the impact of environmental oestrogens (either in the form of pesticides or plastics) on reproductive function have shown that ERbeta-selective toxins cause reproductive dysfunction and impair fertility. It remains to be established as to what genes are regulated by ERbeta in the ovary. Finally, ERbeta has been shown to be regulated by gonadotrophins, the pituitary hormones mediating ovarian function.