201. Exploring the fates and molecular changes of different diacylglycerol-rich lipids during in vitro digestion.
- Author
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Xu, Qingqing, Wang, Weifei, Sun-Waterhouse, Dongxiao, Yan, Menglei, Zou, Qian, Liu, Xuan, Lan, Dongming, and Wang, Yonghua
- Subjects
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UNSATURATED fatty acids , *SATURATED fatty acids , *LIPIDS , *DIGESTION , *FATTY acids , *FLAXSEED - Abstract
[Display omitted] • Five diacylglycerol (DAG)-rich lipids had similar lipolysis degrees during digestion. • Unsaturated fatty acids showed higher release percentages in DAG-rich lipids. • Glycerolipid profiles of DAG-rich lipids and lipolysis extents were closely related. • DAGs with higher unsaturation degrees exhibited higher digestibility. • SaSa-DAGs might show good potential to control obesity by prolonging digestion. This study aimed to support the pursuit of healthy oils and investigate the relationships between lipid compositions and digestion fates of diacylglycerol (DAG)-rich lipids using an in vitro digestion model. Soybean-, olive-, rapeseed-, camellia-, and linseed-based DAG-rich lipids (termed SD, OD, RD, CD, and LD, respectively) were selected. These lipids exhibited identical lipolysis degrees (92.20–94.36 %) and digestion rates (0.0403–0.0466 s−1). The lipid structure (DAG or triacylglycerol) was a more important factor affecting the lipolysis degree than other indices (glycerolipid composition and fatty acid composition). For RD, CD and LD with similar fatty acid compositions, the same fatty acid had different release levels, probably due to their different glycerolipid compositions (causing different distributions of the fatty acid in UU-DAG, USa-DAG and SaSa-DAG; U: unsaturated fatty acids, Sa: saturated fatty acids). This study provides insights into the digestion behaviors of different DAG-rich lipids and supports their food or pharmaceutical applications. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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