2023
DOI: 10.1007/s00216-023-04605-x
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Non-target estrogenic screening of 60 pesticides, six plant protection products, and tomato, grape, and wine samples by planar chromatography combined with the planar yeast estrogen screen bioassay

Abstract: For non-target residue analysis of xenoestrogens in food, sophisticated chromatographic–mass spectrometric techniques lack in biological effect detection. Various in vitro assays providing sum values encounter problems when opposing signals are present in a complex sample. Due to physicochemical signal reduction, cytotoxic or antagonistic effect responses, the resulting sum value is falsified. Instead, the demonstrated non-target estrogenic screening with an integrated planar chromatographic separation differe… Show more

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Cited by 4 publications
(1 citation statement)
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“…The normalized intensity was recorded and fitted to equation 2 for determination of the IC50 value (AAT Frye 12 Bioquest, equation adapted in Origin Pro) for the experiment. (48)(49)(50)(51)(52) In equation 2, F max and F min represent the maximum and minimum fluorescent intensities of the experiment. F o represents the fluorescent intensity at each data point, and [S] o represents the concentration of competing ligand, in this case the FANAs or untagged miRs.…”
Section: Steady-state Fluorescence Spectroscopymentioning
confidence: 99%
“…The normalized intensity was recorded and fitted to equation 2 for determination of the IC50 value (AAT Frye 12 Bioquest, equation adapted in Origin Pro) for the experiment. (48)(49)(50)(51)(52) In equation 2, F max and F min represent the maximum and minimum fluorescent intensities of the experiment. F o represents the fluorescent intensity at each data point, and [S] o represents the concentration of competing ligand, in this case the FANAs or untagged miRs.…”
Section: Steady-state Fluorescence Spectroscopymentioning
confidence: 99%