Impact of air‐frying on the plasmalogens deterioration and oxidation in oyster revealed by mild acid hydrolysis and HILIC‐MS‐based lipidomics analysis

Impact of air‐frying on the plasmalogens deterioration and oxidation in oyster revealed by mild acid hydrolysis and HILIC‐MS‐based lipidomics analysis

Oyster is rich in plasmalogens that are ether phospholipids with biological functions to human body. Air‐frying is a popular technique for preparing delicious oyster but makes the plasmalogens vulnerable to oxidation. In this study, the effect of air‐frying processing on plasmalogens oxidation was s...

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Published in:Electrophoresis Vol. 42; no. 16; pp. 1552 - 1559
Main Authors: Lu, Weibo, Zhang, Min, Zhang, Ting, Wang, Qingchen, Wang, Jie, Song, Gongshuai, Wang, Honghai, Feng, Junli, Shen, Qing
Format: Journal Article
Language:English
Published: Germany Wiley Subscription Services, Inc 01-08-2021
Subjects:
Air‐frying
Animals
Frying
Hydrolysis
Hydrophilic interaction chromatography‐mass spectrometry
Lipidomics
Lipids
Ostreidae
Oxidation
Oyster
Phospholipids
Plasmalogens
Principal components analysis
Statistical analysis
Tandem Mass Spectrometry
Vinyl ethers
Lipidomics
Hydrophilic interaction chromatography-mass spectrometry
Air-frying
Oyster
Plasmalogens
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Summary:Oyster is rich in plasmalogens that are ether phospholipids with biological functions to human body. Air‐frying is a popular technique for preparing delicious oyster but makes the plasmalogens vulnerable to oxidation. In this study, the effect of air‐frying processing on plasmalogens oxidation was studied by lipidomic approach. Plasmalogens were always mixed with normal phospholipids, thus the lipid extract was treated with mild acid hydrolysis to rapidly degrade plasmalogens owing to the acid lability of vinyl ether linkage at sn‐1 position. After hydrophilic interaction chromatography MS/MS analysis, there were three plasmalogen classes, plasmanylcholine, plasmanylethanolamine, and plasmanylinositol, completely separated, and each plasmalogen molecular species was identified and quantified. It indicated that the content of plasmalogens underwent an obvious decrease during the air‐frying process. To weaken such effect, the influence of air‐frying temperature was further inspected by multivariate statistical analyses. The main variables, including the ions of m/z 756.4927, 784.5486, 828.5812, etc., were revealed by unsupervised principle component analysis, supervised orthogonal partial least‐square analysis, and variable importance in projection plot. As a conclusion, air‐frying has health benefits in reducing fat content but destructive to plasmalogens, thus interventions are recommended to prevent the degradation of plasmalogens.
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ISSN:0173-0835
1522-2683
DOI:10.1002/elps.202100106