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Search results for: endocrine-disrupting chemicals
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Impact of binary mixtures of triclosan and methylparaben on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test) - with controls
Open Research DataData shown in data set illustrate the results of the endocrine processes of mixtures of triclosan and methylparaben with controls for YES agonsit, YES antagonist, YAS agonist and YAS antagonist. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems - XenoScreen®....
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Impact of binary mixtures of two parabens (Methylparaben and Buthylparaben) on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test)
Open Research DataData shown in data set illustrate the results of the endocrine processes of mixtures of two parabens e.i. methylparaben and buthylparaben. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems - XenoScreen®. Tested substances have bacteriostatic and fungicide...
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Impact of binary mixtures of triclosan and 17α-ethinylestradiol on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test) - with controls
Open Research DataData shown in data set illustrate the results of the endocrine processes of mixtures of triclosan and 17α-ethinylestradiol with controls for YES agonsit, YES antagonist, YAS agonist and YAS antagonist. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems -...
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Impact of binary mixtures of buthylparaben and 17α-ethinylestradiol on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test) - with controls
Open Research DataData shown in data set illustrate the results of the endocrine processes of mixtures of buthylparaben and 17α-ethinylestradiol with controls for YES agonsit, YES antagonist, YAS agonist and YAS antagonist. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems...
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Impact of binary mixtures of triclosan and β-estradiol on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test) - with controls
Open Research DataData shown in data set illustrate the results of the endocrine processes of mixtures of triclosan and β-estradiol with controls for YES agonsit, YES antagonist, YAS agonist and YAS antagonist. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems - XenoScreen®. ...
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Impact of binary mixtures of methylparaben and 17α-ethinylestradiol on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test) - with controls
Open Research DataData shown in data set illustrate the results of the endocrine processes of mixtures of methylparaben and β-estradiol with controls for YES agonsit, YES antagonist, YAS agonist and YAS antagonist. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems - XenoScreen®. ...
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Impact of binary mixtures of diclofenac and on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test)
Open Research DataData shown in data set highlighte the results of the edorin processes of the diclofenac sodium salt mixture with Methylparaben. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems - XenoScreen®. Methylparaben have fungicide properties used in food preservative,...
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Impact of binary mixtures of Irgasan (triclosan) and Diclofenac on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test)
Open Research DataThe XenoScreen YES/YAS reagents and methodology is given in Kudłak et al. (2019) and in details in electronic supplementary material.
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Impact of binary mixtures of Irgasan (triclosan) and two parabens on endocrine processes of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test)
Open Research DataData shown in data set illustrate the results of the edorin processes of the Irgasan (triclosan) mixture with two parabens e.i. methylparaben and buthylparaben. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems - XenoScreen®. Tested substances have bakeriosis...
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The PolarScreen™ Estrogen Receptor Competitor Assays for determination of estradiol equivalent concentrations (EEQs) in sewage and drinking water samples.
Open Research DataMunicipal waste waters are one of the main sources of estrogenic compounds in aquatic environments. Feminization of fish downstream of Waste Water Treatment Plants (WWTPs) discharges has been observed worldwide. Some estrogenic chemicals, particularly steroid estrogens, are known to cause disruption of the endocrine system of fishes and abnormalities...
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Separation of bacteria in UF process
Open Research DataLarge quantities of water are used in car washing, so it is necessary to recycle the water, which is made possible by membrane filtration. FP100 (100 kDa) membranes have been used to treat car wash wastewater by ultrafiltration (UF). With time of operation, the properties of the membranes change. The membranes need to be cleaned periodically to prevent...
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The estrogenicity of wastewater samples.
Open Research DataThe principle of operation of the kit is based on the fact that the tested sample with endocrine activity (containing compounds capable of binding to the human estrogen receptor α, hERα) releases the fluorescently labeled ligand (FluormoneTM ES2) from the receptor-ligand complex, which results in a reduction of the polarization value fluorescence. The...
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Results of modeling of pharmaceuticals mixtures toxicity with deviation ratio and best-fit functions models using Saccharomyces cerevisiae yeast as model organism
Open Research DataThe research was concerned with verifying the impact of binary mixtures of nine pharmaceuticals against a selected organism, i.e., the yeast Saccharomyces cerevisiae. S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems - XenoScreen®. Tested pharmaceuticals,...
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Impact of binary mixtures of diclofenac and buthylparaben of the model organism Saccharomyces Cerevisiae (using XenoScreen YES/YAS test)
Open Research DataData shown in data set illustrate the results of the edorin processes of miture of diclofenac and buthylparaben on S cerevisiae is used as a model organism in the monitoring of endocrine disruptors in environmental and reference samples in Xenometrix® systems - XenoScreen®. Tested substances have bakeriosis and fungicide properties and are used in...