Conazoles are a class of imidazole- or triazole-containing pesticides widely used in agricultural or medical field. Conazoles are environmentally-important fungicides that have received significant attention from regulatory agencies and scientists due to frequent occurrence in the aquatic environment. While all conazoles have anti-antifungal activity, some members of the conazole family have potential adverse effects in humans as they induce liver or thyroid tumors in rodents and cause endocrine disrupting effects in experimental animals. The objective of the study is to evaluate ecotoxicological effects of two prototypic conazoles, ketoconazole (KET, an immidazole) and letrozole (LET, a triazole) and assess their modes of toxic action via assessing combined endocrine relative gene expression disrupting potency of mixtures of conazoles and an environmental estrogen (17α-ethinyl estradiol, EE2) in medaka fish (Oryzias latipes). We have treated adult medaka of males and females respectively with three sets of experimental solutions for a 14 days’ aqueous exposure including a single EE2 (200 ng/L), a binary mixture of EE2 (200 ng/L) with KET (10, 50 or 250 μg/L) or LET (10, 50 or 250 μg/L) and blank controls. Gene expression of reproduction relative gene (VTGI, VTGII & ERα), and gene encoded cytochrome P450 (CYP) enzymes responsible for metabolism of endogenous or exogenous hormones in liver or gene encoded CYP enzymes responsible for synthesizing endogenous hormones in gonad of fish from control and treated groups was assessed with real time quantitative polymerase chain reaction (RT-qPCR). Results show that EE2 (200 ng/L) significantly increased hepatic VTGI, VTGII and ERα gene expression in both male and female medaka compared to the blank control. Compared with the single EE2 (200 ng/L) exposure, mRNA expression of both VTG genes was elevated in male fish from mixtures of EE2 (200 ng/L) with KET (10-250 μg/L); however, mixtures of EE2 (200 ng/L) with either KET (50-250 μg/L) or LET (10-250 μg/L) significantly decreased expression of VTGI or VTGII in livers from female fish. The correlation between VTG and ERα and the expression of the estrogen-metabolizing enzymes (e.g. CYP1A & 3A in liver) and estrogen- synthesizing enzymes (CYP19A in gonad) is not clear in this study. Our results show gender-dependent response of medaka fish to EE2-induced estrogenicity in the presence of conazole fungicides in water. More information about protein and activity of estrogen-metabolizing and estrogen-synthesizing enzyme after mixture of EE2 and conazole are needed to better understand the mechanism about endocrine disrupting action of KET or LET in medaka fish.