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Quinone-mediated non-enzymatic browning in model systems during long-term storage

Jingjing Su, Yaqian Geng, Jinbo Yao, Yuan Huang, Junfu Ji, Fang Chen, Xiaosong Hu, Lingjun Ma

2022Food Chemistry X25 citationsDOIOpen Access PDF

Abstract

Non-enzymatic browning induced by polyphenol oxidation is an essential problem during the processing and storage of fruit and vegetable products. Here, the non-enzymatic browning mechanism between catechin (CAT), chlorogenic acid (CQA) and their corresponding quinones was investigated in model systems during the 32-d long-term storage. The results showed that CAT and catechin quinone (CATQ), which contains both A ring with a resorcinol structure and an o-diphenol B ring, are important precursors for browning, while chlorogenic acid (CQA) has a minor effect on browning. Chlorogenic acid quinone (CQAQ)-mediated CAT oxidation (kCAT-degradation = 0.0458 mol·L−1·d−1) was faster than CAT autoxidation (kCAT-degradation = 0.0006 mol·L−1·d−1), and there was no significant difference between CQAQ-mediated CAT oxidation and CATQ-mediated CQA oxidation. These indicate that CQAQ oxidizes CAT to CATQ quickly, and CATQ reacts with CAT subsequently through complex reactions to produce brown pigments in model systems during long-term storage.

Topics & Concepts

BrowningTerm (time)QuinoneChemistryEnzymeBiochemistryPhysicsQuantum mechanicsBiochemical and biochemical processesPhytochemicals and Antioxidant ActivitiesTea Polyphenols and Effects
Quinone-mediated non-enzymatic browning in model systems during long-term storage | Litcius