Dry and low-moisture foods could experience a significant loss in nutritional value due to the process of methyl linoleate oxidation. L-proline could interact with lipid oxidation products, potentially modifying their formation and reaction path. However, there was a lack of research on the interaction between L-proline and methyl linoleate oxidation products in dry and low-moisture food matrices, which was a concern given the potential impact on food safety and nutrition. To address this knowledge gap, a study investigated the interaction between L-proline and the oxidation products of methyl linoleate in a dry system. The study examined the formation of methyl linoleate oxidation products such as conjugated dienes, hydroperoxide, and hexanal in the absence and presence of varying moles of L-proline at different temperatures. The formation of conjugated diene, hydroperoxide, and hexanal was analyzed using UV spectrometer analysis, xylenol orange, and DNPH derivatization HPLC-UV analysis. The results showed that adding proline to methyl linoleate samples stabilized conjugated diene and decreased hydroperoxide and hexanal levels as temperature increased, compared to the control sample. This suggests that L-proline effectively interacted with methyl linoleate oxidation products and altered their formation and oxidation path in the dry system. Overall, this study provided a basis for significantly enhancing understanding of the reactions between L-proline and methyl linoleate oxidation products in dry and low-moisture foods, offered practical implications for the food industry, and paved the way for future research.
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