Annewieke J.W. Verloop scite author profile

The antibrowning activity of sodium hydrogen sulfite (NaHSO(3)) was compared to that of other sulfur-containing compounds. Inhibition of enzymatic browning was investigated using a model browning system consisting of mushroom tyrosinase and chlorogenic acid (5-CQA). Development of brown color (spectral analysis), oxygen consumption, and reaction product formation (RP-UHPLC-PDA-MS) were monitored in time. It was found that the compounds showing antibrowning activity either prevented browning by forming colorless addition products with o-quinones of 5-CQA (NaHSO(3), cysteine, and glutathione) or inhibiting the enzymatic activity of tyrosinase (NaHSO(3) and dithiothreitol). NaHSO(3) was different from the other sulfur-containing compounds investigated, because it showed a dual inhibitory effect on browning. Initial browning was prevented by trapping the o-quinones formed in colorless addition products (sulfochlorogenic acid), while at the same time, tyrosinase activity was inhibited in a time-dependent way, as shown by pre-incubation experiments of tyrosinase with NaHSO(3). Furthermore, it was demonstrated that sulfochlorogenic and cysteinylchlorogenic acids were not inhibitors of mushroom tyrosinase.

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Altering the phenolics profile of a green tea leaves extract using exogenous oxidases

Verloop

Gruppen

Bisschop

et al. 2016

Food Chemistry

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Annotation of Different Dehydrocatechin Oligomers by MS/MS and Their Occurrence in Black Tea

Verloop

Gruppen

Vincken

2016

J. Agric. Food Chem.

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Dehydrocatechins (DhC's), oligomeric oxidation products of (epi)catechins, were formed in model incubations of epicatechin with mushroom tyrosinase. DhC oligomers up to tetramers were detected by reversed-phase ultrahigh-performance liquid chromatography mass spectrometry (RP-UHPLC-MS) analysis. Measurements with matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) showed formation of oligomers up to at least 15 catechin subunits. Isomeric DhC's were obtained, and a method based on MS(2) fragment ratios was set up to distinguish between the different interflavanic configurations of the isomers. In the model incubation, 8 dehydrodicatechins (DhC2's) and 22 dehydrotricatechins (DhC3's) were tentatively annotated by their MS(2) signature fragments. Three different interflavanic configuration types were determined for the DhC2's. DhC2's and DhC3's were shown to occur in a black tea extract for the first time. For the DhC2's, at least two isomeric types, i.e., DhC β and DhC ε, could be annotated in black tea.

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A tandem mass spectrometry method based on selected ions detects low‐abundance phenolics in black tea – theatridimensins as products of the oxidative cascade

Verloop

Vincken

Gruppen

2016

Rapid Comm Mass Spectrometry

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Peroxidase Can Perform the Hydroxylation Step in the “Oxidative Cascade” during Oxidation of Tea Catechins

Verloop

Vincken

Gruppen

2016

J. Agric. Food Chem.

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Formation of black tea thearubigins involves at least two of the following oxidation steps: (i) oligomerization, (ii) rearrangement, (iii) hydroxylation. The first two are mainly catalysed by polyphenol oxidase(PPO), whereas the enzyme responsible for hydroxylation has not yet been identified. Two main oxidative activities, peroxidase(POD) and PPO, occur in tea leaves. POD was hypothesized to be responsible for hydroxylation. Model systems with horseradish POD and mushroom tyrosinase were used investigating hydroxylation of theaflavins(TF). POD was found capable of hydroxylation. TFs with up to five extra hydroxyl groups were annotated by their MS2 data. Hydroxylation by POD was also shown for theanaphtoquinones, theatridimensins and dehydrodicatechins. H2O2 concentration influenced the extent of hydroxylation, decreasing it at concentrations above 0.01 mM. TFs with up to five extra hydroxyl groups, and traces of other hydroxylated oligomeric catechins, could be annotated in black tea without any sample pre-treatment, using a selective screening method with RP-UHPLC-MS.

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