The Effects of Naringenin on Volatile Formation, Browning Intensity and Antioxidant Capacity in Three Maillard Reaction Models

Naringenin, a dihydrogen flavonoid compound, shows multiple biological effects such as antioxidant and anti-inflammatory. However, a series of changes may occur to it during thermal processing when it serves as a kind of food additive, thus impacting the quality characteristics of the final system. The Maillard reaction is one of the main reactions involved in food thermal processing. In this study, Maillard reaction models based on glucose with glycine, phenylalanine and cysteine were built. The results showed that naringenin treatment could significantly reduce the generation of volatile substances in three model systems, and the volatile components of different types and contents varied according to different models. The volatile components in experimental or control group (without naringenin treatment) could be distinguished well by principal component analysis using electronic nose. Furthermore, the addition of naringenin could not only significantly increase the browning intensity of Glu-Gly group, but also improve the antioxidant capacity of Maillard reaction products in three model systems. The above changes could be attributed to the fact that naringenin was directly involved in the Maillard reaction during thermal processing, causing the above changes. In summary, the treatment with naringenin can change the flavor, color and antioxidant capacity of Maillard reaction model systems. This paper might provide new thoughts for the generation of flavor, color and antioxidant capacity in food system, and lay the theoretical basis for the application of naringenin in food industry. © 2018, Editorial Office of Journal of CIFST. All right reserved.