The impact of photosensitizer and wavelength on photooxidation of phytosterols (PS) in soymilk and the oxidative stability of lipid and protein was determined. The oxidation of lipid and the consumption of dissolved oxygen showed a close relationship with PS oxidation. Riboflavin (Rb) leads to extra oxidation of both lipid and protein, and chlorophyll (Chl) prefer to absorb to and change the structure of protein. The influence of Rb and Chl on PS degradation under different wavelengths of light in the range of 365-665 nm was measured. Original soymilk emulsion placed under UVA (365-375 nm) and violet (400-410 nm) light underwent the most PS deterioration, whereas riboflavin was responsible for oxidation around blue (465-475 nm) region and extra formation of 6β-OH sterols, and chlorophyll enriched emulsion was vulnerable under red (645-665 nm) light. The wavelength of light (UVA > violet > blue > green > red > yellow) showed a great different effect in oxidation of PS and formation of phytosterol oxidation products (POPs). The UVA, violet, blue and red light gives rise to the prior five kind oxides of phytosterol: 6α-OH, 7α-OH, 7β-OH, 5,6β-epoxy and 7-keto.
Keywords: Oxidation products; Photosensitizers; Phytosterols; Wavelength.
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