Search results for "macrocyclic polyamine"

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Inhibitory Effect of Azamacrocyclic Ligands on Polyphenol Oxidase in Model and Food Systems

2020

[EN] Enzymatic browning is one of the main problems faced by the food industry due to the enzyme polyphenol oxidase (PPO) provoking an undesirable color change in the presence of oxygen. Here, we report the evaluation of 10 different azamacrocyclic compounds with diverse morphologies as potential inhibitors against the activity of PPO, both in model and real systems. An initial screening of 10 ligands shows that all azamacrocyclic compounds inhibit to some extent the enzymatic browning, but the molecular structure plays a crucial role on the power of inhibition. Kinetic studies of the most active ligand (L2) reveal a S-parabolic I-parabolic noncompetitive inhibition mechanism and a remarkab…

0106 biological sciencesPPOTECNOLOGIA DE ALIMENTOSMacrocyclic polyaminesLigands01 natural sciencesPolyphenol oxidaseQUIMICA ORGANICANon-competitive inhibitionBrowningEnzyme InhibitorsInhibitory effectIC50InhibitionPlant Proteinschemistry.chemical_classificationEnzymatic activityChemistryReal systemsLigand010401 analytical chemistryGeneral Chemistry0104 chemical sciencesFruit and Vegetable JuicesKineticsEnzymeBiochemistryFruitMalusGeneral Agricultural and Biological SciencesCatechol Oxidase010606 plant biology & botanyJournal of Agricultural and Food Chemistry
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A Metal-Based Receptor for Selective Coordination and Fluorescent Sensing of Chloride

2021

A scorpionate Zn2+ complex, constituted by a macrocyclic pyridinophane core attached to a pendant arm containing a fluorescent pyridyl-oxadiazole-phenyl unit (PyPD), has been shown to selectively recognize chloride anions, giving rise to changes in fluorescence emission that are clearly visible under a 365 nm UV lamp. This recognition event has been studied by means of absorption, fluorescence, and NMR spectroscopy, and it involves the intramolecular displacement of the PyPD unit by chloride anions. Moreover, since the chromophore is not removed from the system after the recognition event, the fluorescence can readily be restored by elimination of the bound chloride anion.

Pharmaceutical ScienceOrganic chemistryPhotochemistryChlorideArticleAnalytical ChemistryIonQD241-441chloride sensing; fluorescence; macrocyclic polyamine; metallo-receptorDrug DiscoverymedicinePhysical and Theoretical ChemistryReceptormacrocyclic polyamineChemistryNuclear magnetic resonance spectroscopyChromophoremetallo-receptorFluorescenceChemistry (miscellaneous)Intramolecular forceMolecular MedicinefluorescenceAbsorption (chemistry)medicine.drugchloride sensingMolecules
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