Streptomycin is one of the most widely used antibiotics and is frequently added to cell culture media to prevent bacterial growth. We tested streptomycin in a battery of in vitro assays for assessment of reproductive toxicity. The follicle bio-assay (FBA) is a multiparametric long-term follicle culture system mimicking ovarian function; in vitro fertilisation (IVF) of exposed oocytes enables gamete quality determination through fecundability; the mouse embryo assay (MEA) analyses pre-implantation embryo development whereas the embryonic stem cell test (EST) studies post-implantation embryotoxicity. The FBA revealed a concentration-dependent decrease in oocyte nuclear maturation during continuous exposure from 50 microg/ml streptomycin onwards, characterised by a significantly reduced polar body-rate (40% vs. 92% in the control group). Oocytes that remained arrested in metaphase I (germinal vesicle breakdown) had aberrant spindle formation. IVF of long-term exposed oocytes in the FBA to 50 microg/ml streptomycin resulted in a significantly lower fertilisation rate of 23% vs. 74% in the control group and were unable to develop to the blastocyst stage. The MEA revealed no effect at pre-implantation embryo development and quality. Furthermore, no embryo-toxic effects of streptomycin were observed in the EST. In conclusion, oocytes are vulnerable to streptomycin treatment. Long-term exposure might cause fertility problems in the female and caution should be taken using streptomycin in cell culture media for assisted reproductive technology (ART).