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| Q43058515 | Combined exposure to endocrine disrupting pesticides impairs parturition, causes pup mortality and affects sexual differentiation in rats |
| Q43058511 | Combined exposures to anti-androgenic chemicals: steps towards cumulative risk assessment |
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| Q24607688 | Cumulative effects of in utero administration of mixtures of reproductive toxicants that disrupt common target tissues via diverse mechanisms of toxicity |
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| Q43630839 | Determination of dichloroanilines in human urine by GC-MS, GC-MS-MS, and GC-ECD as markers of low-level pesticide exposure. |
| Q43673833 | Developmental stage sensitivity and mode of action information for androgen agonists and antagonists |
| Q36717191 | Diethylstilbestrol-induced mouse hypospadias: "window of susceptibility". |
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| Q44341890 | Dynamics of subcellular compartmentalization of steroid receptors in living cells as a strategic screening method to determine the biological impact of suspected endocrine disruptors |
| Q28383132 | EDC-2: The Endocrine Society's Second Scientific Statement on Endocrine-Disrupting Chemicals |
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| Q43960988 | Effects of in utero linuron exposure on rat Wolffian duct development |
| Q44653082 | Effects of perinatal loratadine exposure on male rat reproductive organ development |
| Q39147311 | Effects of single pesticides and binary pesticide mixtures on estrone production in H295R cells |
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| Q44057835 | Estrogenic activity of procymidone in primary cultured rainbow trout hepatocytes (Oncorhynchus mykiss). |
| Q24656303 | Fifteen years after "Wingspread"--environmental endocrine disrupters and human and wildlife health: where we are today and where we need to go |
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| Q34183609 | In utero exposure to an AR antagonist plus an inhibitor of fetal testosterone synthesis induces cumulative effects on F1 male rats |
| Q34414637 | Incorporation of endocrine disruption into chemical hazard scoring for pollution prevention and current list of endocrine disrupting chemicals |
| Q24814312 | Interaction of organophosphate pesticides and related compounds with the androgen receptor |
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| Q39743721 | Mixture effects of endocrine disrupting compounds in vitro. |
| Q46196349 | Mixtures of endocrine disrupting contaminants modelled on human high end exposures: an exploratory study in rats |
| Q35587410 | Novel stably transfected human reporter cell line AIZ-AR as a tool for an assessment of human androgen receptor transcriptional activity |
| Q38507360 | OECD validation of the rodent Hershberger assay using three reference chemicals; 17alpha-methyltestosterone, procymidone, and p,p'-DDE. |
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| Q28389964 | Pesticide exposure: the hormonal function of the female reproductive system disrupted? |
| Q38420513 | Pesticide residues in leafy vegetables, stalk and stem vegetables from South Korea: a long-term study on safety and health risk assessment |
| Q43639087 | Possible androgenic/anti-androgenic activity of the insecticide fenitrothion |
| Q43619900 | Quantification of antiandrogen effect determined by Lightcycler technology |
| Q55297874 | Rebuttal of "Flawed Experimental Design Reveals the Need for Guidelines Requiring Appropriate Positive Controls in Endocrine Disruption Research" by (Vom Saal 2010). |
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| Q42653855 | Steroid receptor expression in the developing copulatory system of the green anole lizard (Anolis carolinensis). |
| Q33424108 | Stir bar sorptive extraction applied to the determination of dicarboximide fungicides in wine |
| Q44622741 | Study of 202 Natural, Synthetic, and Environmental Chemicals for Binding to the Androgen Receptor |
| Q33864739 | The Gerhard Zbinden memorial lecture. Are environmental chemicals affecting the integrity or expression of the human genome? |
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