Schilling et al. | Neues mathematisches Verfahren zur Charakterisierung unbekannter organischer Vielstoffgemische durch die Adsorptionsanalyse | 1989
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Lindequist | Medicinal Mushrooms as Multicomponent Mixtures—Demonstrated with the Example of Lentinula edodes | 2024
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Widmann et al. | Supercritical Fluid Extraction with CO2 of Curcuma longa L. in Comparison to Conventional Solvent Extraction | 2022
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Morlock | Schadstoffe besser erkennen in komplexen Proben | 2022
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Ronzheimer et al. | Multiplex planar bioassay detecting phytoestrogens and verified antiestrogens as sharp zones on normal phase | 2022
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Ristivojević et al. | Fast detection of apricot product frauds by added pumpkin via planar chromatography and chemometrics: greenness assessment by analytical Eco-Scale | 2022
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Morlock et al. | Evidence that Indo-Pacific bottlenose dolphins self-medicate with invertebrates in coral reefs | 2022
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Chepngeno et al. | Baobab pulp authenticity and quality control by multi-imaging high-performance thin-layer chromatography | 2022
| Details |
Schreiner et al. | Multiplex planar bioassay with reduced diffusion on normal phase, identifying androgens, verified antiandrogens and synergists in botanicals via 12D hyphenation | 2022
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Wink | Current understanding of modes of action of multicomponent bioactive phytochemicals: Potential for nutraceuticals and antimicrobials | 2022
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Melzig | Phytotherapie – schützenswertes immaterielles Kulturerbe? | 2021
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Schreiner et al. | Is our natural food our homeostasis? Array of a thousand effect-directed profiles of 68 herbs and spices | 2021
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Kruse et al. | Effects on the probiotic activity of Bacillus subtilis DSM 29784 in cultures and feeding stuff | 2021
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Schreiner und Morlock | Non-target bioanalytical eight-dimensional hyphenation including bioassay, heart-cut trapping, online desalting, orthogonal separations and mass spectrometry | 2021
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Krüzselyi et al. | Goldenrod root compounds active against crop pathogenic fungi | 2021
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Chandana et al. | Eight different bioactivity profiles of 40 cinnamons to discover multipotent compounds by multi-imaging planar chromatography hyphenated with effect-directed analysis and high-resolution mass spectrometry | 2021
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Klingelhöfer et al. | A bioimaging system combining human cultured reporter cells and planar chromatography to identify novel bioactive molecules | 2021
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Morlock et al. | Effect-directed profiling of powdered tea extracts for catechins, theaflavins, flavonols and caffeine | 2021
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Morlock et al. | Miniaturized all-in-one nanoGIT+active system for on-surface metabolization, separation and effect imaging | 2021
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Morlock et al. | Effect-directed profiling of 17 different fortified plant extracts by high-performance thin-layer chromatography combined with six planar assays and high-resolution mass spectrometry | 2021
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Azadniya et al. | High-throughput enzyme inhibition screening of 44 Iranian medicinal extracts via piezoelectric spraying of planar cholinesterase assays | 2021
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Chandana und Morlock | Comprehensive bioanalytical multi-imaging by planar chromatography in situ combined with biological and biochemical assays highlights bioactive fatty acids in abelmosk | 2021
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Morlock et al. | Effect-directed analysis of 32 vanilla products, characterization of multi-potent compounds and quantification of vanillin and ethyl vanillin | 2021
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Morlock | High-performance thin-layer chromatography combined with effect-directed assays and high-resolution mass spectrometry as an emerging hyphenated technology: A tutorial review | 2021
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Inarejos-García et al. | Authentication of commercial powdered Tea (Camellia sinensis L.) extracts by gas chromatography | 2021
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Melzig | Verloren und vergessen? | 2020
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Mahran et al. | New planar assay for a streamlined detection and quantification of β-glucuronidase inhibitors and application to botanical extracts | 2020
| Details |
Jamshidi-Aijdi et al. | Effect-directed profiling of aqueous, fermented plant preparations via high-performance thin-layer chromatography combined with in situ assays and high-resolution mass spectrometry | 2020
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Azadniya et al. | Same analytical method for both (bio)assay and zone isolation to identify/quantify bioactive compounds by quantitative nuclear magnetic resonance spectroscopy | 2020
| Details |
Corni et al. | Effect-directed analysis of biologically active compounds in Cannabis sativa L. (hemp) by high-performance thin-layer chromatography | 2020
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Mahran et al. | Effect-directed analysis by high-performance thin-layer chromatography for bioactive metabolites tracking in Primula veris flower and Primula boveana leaf extracts | 2019
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Jamshidi-Aijdi und Morlock | Fast equivalency estimation of unknown enzyme inhibitors in situ the effect-directed fingerprint, shown for Bacillus lipopeptide extracts | 2018
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Rodríguez Villanueva et al. | Pharmacological activities of phytomedicines: A challenge horizon for rational knowledge | 2018
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Alolga et al. | Pharmacokinetics of a multicomponent herbal preparation in healthy Chinese and African volunteers | 2015
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Wink | Modes of action of herbal medicines and plant secondary metabolites | 2015
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Schwabl und Vennos | Pflanzliche Vielstoffgemische als Netzwerk-Arzneien | 2013
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Reichling | Pflanzliche Vielstoffgemische – eine rationale Option zur Bekämpfung lästiger Viren? | 2010
| Details |
Saller und Holzer | Multimorbodität, Komorbidität und phytotherapeutische Vielstoffgemische als Arzneimittel | 2010
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Wink | Wirkungen von in der Phytotherapie eingesetzten Vielkomponenten-Gemischen auf Proteine, Gene und Biomembranen | 2009
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Wink | Evolutionary advantage and molecular modes of action of multi-component mixtures used in phytomedicine | 2008
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Büechi | Therapeutische Anwendung von Opium | Vielstoffgemisch versus einzelne Wirkstoffe – ein systematischer Review | 2006
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Vennos und Schwabl | Chronische Low-Level Entzündungen: Pflanzliche Vielstoffgemische als integrative Erweiterung antioxidativer Strategien | 2006
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Wink | Die Verwendung pflanzlicher Vielstoffgemische in der Phytotherapie | 2005
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Wink | Wie funktionieren Phytopharmaka? | 2005
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Iten und Saller | Fencheltee: Risikoabschätzung der phytogenen Monosubstanz Estragol im Vergleich zum natürlichen Vielstoffgemisch | 2004
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Reichling et al. | Johanniskraut (Hypericum perforatum L.) – Vielstoffgemische kontra phytogene Einzelstoffe | 2003
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Oelert | Infrarotspektroskopische Gruppenanalyse an festen aromatischen Vielstoffgemischen | 1967
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