Occurrence and Antioxidant Activity of C1 Degradation Products in Cocoa

Occurrence and Antioxidant Activity of C1 Degradation Products in Cocoa

Procyanidin C1 is by far the main flavan-3-ol trimer in cocoa. Like other flavan-3-ols, however, it suffers a lot during heat treatments such as roasting. RP-HPLCHRMS/MS(ESI(-))analysis applied to an aqueous model medium containing commercial procyanidin C1 proved that epimerization is the main reac...

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Veröffentlicht in:Foods 2017-02, Vol.6 (3), p.18
Hauptverfasser: De Taeye, Cédric, Cibaka, Marie-Lucie Kankolongo, Collin, Sonia
Format: Artikel
Sprache:eng
Schlagworte:
Antioxidants
Cocoa
Degradation
Degradation products
Depolymerization
Dimers
epimers
flavan-3-ols
Food processing
Food science
Heat treatment
Heat treatments
Isomers
model medium
online TEAC
Oxidation
Procyanidin C1
Roasting
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Zusammenfassung:Procyanidin C1 is by far the main flavan-3-ol trimer in cocoa. Like other flavan-3-ols, however, it suffers a lot during heat treatments such as roasting. RP-HPLCHRMS/MS(ESI(-))analysis applied to an aqueous model medium containing commercial procyanidin C1 proved that epimerization is the main reaction involved in its degradation (accounting for 62% of degradation products). In addition to depolymerization, cocoa procyanidin C1 also proved sensitive to oxidation, yielding once- and twice-oxidized dimers. No chemical oligomer involving the native trimer was found in either model medium or cocoa, while two C1 isomers were retrieved. C1 degradation products exhibited antioxidant activity (monitored by RPHPLC-Online TEAC) close to that of C1 (when expressed in µM TE/mg·kg-1).
ISSN:2304-8158
2304-8158
DOI:10.3390/foods6030018