油酸
化学
多不饱和脂肪酸
代谢物
亚油酸
脂肪酸
硬脂酸
风味
β氧化
脂质氧化
色谱法
生物化学
有机化学
抗氧化剂
作者
Huilin Zhao,Sijia Lin,Jianbin Zhang,Ayong Wang,Lei Qin,Xu-Hui Huang
标识
DOI:10.1021/acs.jafc.5c01965
摘要
Lipid saturation and protein oxidation influence the types and amounts of volatile and nonvolatile compounds by affecting lipid oxidation. This study examined three reaction modes: systems containing only fatty acids with three different saturations, only myofibrillar proteins (MPs), or their combinations. Sensomics (including volatilomics) and metabolomics were used to analyze these systems. Results showed that MPs enhanced saturated fatty acid oxidation, suppressed unsaturated fatty acid double-bond oxidation, and adsorbed volatiles from unsaturated fatty acid thermal oxidation. MPs promoted secondary oxidation to generate short-chain volatiles. The volatile products derived from stearic acid (SA) were mainly dominated by C6-C8 compounds, while oleic acid (OA) was mainly dominated by C7-C10 compounds, and linoleic acid (LA) was mainly dominated by C5-C8 compounds. The concentrations of volatile compounds followed the order: LA (14,061.66 ng/g) > OA (11,943.52 ng/g) > MPs-LA (2,224.45 ng/g) > MPs-OA (154.63 ng/g) > MPs-SA (28.00 ng/g) > SA (24.11 ng/g) > MPs (0.73 ng/g). Through multivariate statistical analysis, hexamethylenetetramine was identified as a differential metabolite specifically associated with the reaction between SA and MPs. This compound may act as an intermediate, potentially playing a regulatory role in flavor formation. Additionally, α-methyl-dl-phenylalanine and triethylene glycol were found to be differential metabolites in the reaction between LA and MPs. This study systematically explained how characteristic volatile and nonvolatile compounds were formed and transformed. The research findings provided important theoretical support for the flavor regulation of fish products, promoting innovative development in the food industry regarding flavor quality enhancement.
科研通智能强力驱动
Strongly Powered by AbleSci AI