References
- Hartmann, R.; Meisel, H. Food-derived Peptides with Biological Activity: From Research to Food Applications. Current Opinion in Biotechnology 2007, 18, 163–169.
- Sarmadi, B.H.; Ismail, A. Antioxidative Peptides from Food Proteins: A Review. Peptides 2010, 31, 1949–1956.
- Carrasco-Castilla, J.; Hernández-Álvarez, A.J.; Jiménez-Martínez, C.; Jacinto-Hernández, C.; Alaiz, M.; Girón-Calle, J; Vioque, J; Dávila-Ortiz, G. Antioxidant and Metal Chelating Activities of Peptide Fractions from Phaseolin and Bean Protein Hydrolysates. Food Chemistry 2012, 135, 1789–1795.
- Jamdar, S.N.; Rajalakshmi, V.; Pednekar, M.D.; Juan, F.; Yardi, V.; Sharma, A. Influence of Degree of Hydrolysis on Functional Properties, Antioxidant Activity and ACE Inhibitory Activity of Peanut Protein Hydrolysate. Food Chemistry 2010, 121, 178–184.
- Sun, Y.; Pan, D.; Guo, Y.; Li, J. Purification of Chicken Breast Protein Hydrolysate and Analysis of its Antioxidant Activity. Food and Chemical Toxicology 2010, 50, 3397–3404.
- Kumar, N.S.S.; Nazeer, R.A.; Jaiganesh, R. Purification and Identification of Antioxidant Peptides from the Skin Protein Hydrolysate of Two Marine fishes, Horse Mackerel (Magalaspis cordyla) and Croaker (Otolithes ruber). Amino Acids 2012, 42, 1641–1649.
- Peng, X.; Xiong, Y.L.; Kong, B. Antioxidant Activity of Peptide Fractions from Whey Protein Hydrolysates as Measured by Electron Spin Resonance. Food Chemistry 2009, 113, 196–201.
- Gu, F.L.; Kim, J.M.; Abbas, S.; Zhang, X.M.; Xia, S.Q.; Chen, Z.X. Structure and Antioxidant Activity of High Molecular Weight Maillard Reaction Products from Casein-glucose. Food Chemistry 2010, 120, 505–511.
- Hwang, G.; Kim, H.Y.; Woo, K.S.; Lee, J.; Jeong, H.S. Biological Activities of Maillard Reaction Products (MRP) in a Sugar-amino Acid Model System. Food Chemistry 2011, 126, 221–227.
- Vhangani, L.N.; Wyk, J.V. Antioxidant Activity of Maillard Reaction Products (MRP) Derived from Fructose–lysine and Ribose–lysine Model Systems. Food Chemistry 2013, 137, 92–98.
- Jiang, Z.; Wang, L.; Wu, W.; Wang, Y. Biological Activities and Physicochemical Properties of Maillard Reaction Products in Sugar–bovine Casein Peptide Model Systems. Food Chemistry 2013, 141, 3837–3845.
- Liu, P.; Huang, M.; Song, S.; Hayat, K.; Zhang, X.; Xia, S.; Jia, C. Sensory Characteristics and Antioxidant Activities of Maillard Reaction Products from Soy Protein Hydrolysates with Different Molecular Weight Distribution. Food Bioprocess Technology 2012, 5, 1775–1789.
- Onuh, J.O.; Girgih, A.T.; Aluko, R.E.; Aliani, M. In Vitro Antioxidant Properties of Chicken Skin Enzymatic Protein Hydrolysates and Membrane Fractions. Food Chemistry 2014, 150, 366–373.
- Lertittikul, W.; Benjakul, S.; Tanaka, M. Characteristics and Antioxidative Activity of Maillard Reaction Products from A Porcine Plasma Protein–glucose Model System as Influenced by Ph. Food Chemistry 2007, 100, 669–677.
- Su, G.; Zheng, L.; Cui, C.; Yang, B.; Ren, J.; Zhao, J. Characterization of Antioxidant Activity and Volatile Compounds of Maillard Reaction Products Derived from Different Peptide Fractions of Peanut Hydrolysate. Food Research International 2011, 44, 3250–3258.
- Kim, S.Y.; Je, J.Y.; Kim, S.K. Purification and Characterization of Antioxidant Peptide from Hoki (Johnius belengerii) Frame Protein by Gastrointestinal Digestion. The Journal of Nutritional Biochemistry 2007, 18, 31–38.
- Wang, J.Z.; Yue, J.; Zhang, C.; Jia, W.; Li, X.; Sun, Z. Preparation of Peptone from Chicken Bone Residue by Using Natural Pancreas as Catalyst. Journal of Chemical Technology and Biotechnology 2016, 91, 2852–2861.
- Xu, D.; Gong, Y.D.; Shen, Y.F.; Nie, X.H. Effect of Temperature on Spectral Characteristics and Antioxidation of Maillard Reaction Products Derived from Chicken Bone Protein Hydrolysate. Food and Fermentation Industries (Chinese) 2015, 41, 126–129.
- AOAC. Official Methods of Analysis of AOAC International (17th); Chemists AOAC: Gaithersburg (MD), 2000.
- Laroque, D.; Inisan, C.; Berger, C.; Vouland, É.; Dufossé, L.; Guérard, F. Kinetic Study on the Maillard Reaction. Consideration of Sugar Reactivity. Food Chemistry 2008, 111, 1032–1042.
- Matiacevich, S.B.; Buera, M.P. A Critical Evaluation of Fluorescence as A Potential Marker for the Maillard Reaction. Food Chemistry 2006, 95, 423–430.
- Benjakul, S.; Lertittikul, W.; Bauer, F. Antioxidant Activity of Maillard Reaction Products from A Porcine Plasma Protein–sugar Model System. Food Chemistry 2005, 93, 189–196.
- Ajibola, C.F.; Fashakin, J.B.; Fagbemi, T.N.; Aluko, R.E. Effect of Peptide Size on Antioxidant Properties of African Yam Bean Seed (Sphenostylis stenocarpa) Protein Hydrolysate Fractions. International Journal of Molecular Sciences 2011, 12, 6685–6702.
- Morales, F.J.; Jiménez-Pérez, S. Free Radical Scavenging Capacity of Maillard Reaction Products as Related to Colour and Fluorescence. Food Chemistry 2001, 72, 119–125.
- Yoshimura, Y.; Iijima, T.; Watanabe, T.; Nakazawa, H. Antioxidative Effect of Maillard Reaction Products Using Glucose-glycine Model System. Journal of Agricultural and Food Chemistry 1997, 45, 4106–4109.
- Jamdar, S.N.; Rajalakshmi, V.; Sharma, A. Antioxidant and ACE Inhibitory Properties of Poultry Viscera Protein Hydrolysate and its Peptide Fractions. Journal of Food Biochemistry 2012, 36, 494–501.
- Girgih, A.T.; Udenigwe, C.C.; Aluko, R.E. In Vitro Antioxidant Properties of Hemp Seed (Cannabis satival) Protein Hydrolysate Fractions. Journal of the American Oil Chemists’ Society 2011, 88, 381–389.
- Shizuuchi, S.; Hayase, F. Antioxidative Activity of the Blue Pigment Formed in A D- Xylose- glycine Reaction System. Bioscience. Biotechnology, and Biochemistry 2003, 67, 54–59.
- Eichner, K.; Antioxidant Effect of Maillard Reaction Intermediates. Progress in Food and Nutrition Science 1981, 5, 441–451.