Mutations of the androgen receptor gene are believed to contribute to the androgen-independent growth of prostate cancer cells. To date, 56 missense mutations of the androgen receptor have been identified in human prostate cancer. The functional status of most of these mutants has not yet been investigated. To address their functional properties, we generated 44 androgen receptor mutants that have been identified in human prostate cancer and used a colorimetric yeast reporter assay to analyze their transactivational activities in response to seven different ligands. We found that these mutant androgen receptors exhibited diverse transactivational activity: seven (16%) showed loss of function, three (7%) had wild-type function, 14 (32%) had partial function, and 20 (45%) had gains of function. Five of 20 gain-of-function mutants had promiscuous activity, being transactivated by non-androgens. We also found that the combination of estradiol and progesterone at physiological concentrations weakly or moderately activated an additional seven mutant androgen receptors. Our findings provide essential information for understanding the role of mutant androgen receptors in prostate cancer.