A promising perspective to boost the utilizability of oil bodies: Moderate regulation and modification of interface
文献类型: 外文期刊
第一作者: Zhang, Shan
作者: Zhang, Shan;Zheng, Ruofan;Yu, Xiao;Chen, Yashu;Deng, Qianchun;Mcclements, David Julian;Yu, Xiao;Zhang, Shan;Sun, Zhida;Xie, Bijun
作者机构:
关键词: gastrointestinal tract; interfacial structure; oil body; physicochemical stability
期刊名称:COMPREHENSIVE REVIEWS IN FOOD SCIENCE AND FOOD SAFETY ( 影响因子:14.1; 五年影响因子:17.8 )
ISSN: 1541-4337
年卷期: 2025 年 24 卷 3 期
页码:
收录情况: SCI
摘要: Oil bodies (OBs), as natural oil storage organelles, can be obtained and utilized directly by simple extraction, thereby satisfying consumer demand for plant-derived green foods. The unique topological structure of the phospholipid-protein membrane renders OBs controllable and resistant to environmental stres, demonstrating their promising prospects for applications. As natural self-assemblies, the nutrient distribution, composition, and structural characteristics of OBs can be modified in multiple ways, including the genetic improvement and various processing techniques, to meet diverse application requirements. Generally, the utilization of OBs (e.g., processing stability, emulsifying, digestion, etc.) is closely related to their interfacial properties, but the associated studies have not been systematically reviewed. In this paper, we systematically review the structural and interfacial characteristics of OBs for the first time, encompassing their biosynthetic pathways and the structure-function relationship critical to their processability and bioavailability In particular, targeted improvement methods were also discussed. The underlying mechanisms of the physicochemical stability of OBs were primarily related to the interfacial modulation, including linkages between density, charge, and the number of protein-phospholipid salt bridges, as well as the quantity and structure of extrinsic proteins. The membrane compactness, enzyme binding sites, and aggregation of OBs in gastrointestinal tract significantly impact their digestion and subsequent metabolic fate. In summary, moderate interfacial modification, by altering the interactions between membrane components and retaining some extrinsic proteins, may be a promising approach to boost the stability and functionality of OBs.
分类号:
- 相关文献
作者其他论文 更多>>
-
Flaxseed protein isolates-stabilized oil-water interface: Role of globulin and albumin
作者:Yang, Jing;Shao, Jiaqi;Peng, Dengfeng;Deng, Qianchun;Yang, Jing;Shao, Jiaqi;Peng, Dengfeng;Deng, Qianchun;Yang, Jing;Li, Dapeng;Duan, Yuqing;Zhang, Haihui;Ashokkumar, Muthupandian
关键词:Flaxseed protein fractions; Structure properties; Interfacial behavior; Oil-water interface
-
Study on interfacial regulation in real food system: Cellulase-induced steady-state reconstruction of flaxseed-based plant milk and its molecular mechanisms
作者:Hao, Qian;Deng, Ziyu;Li, Ruyi;Cheng, Yuanmeng;Chen, Yashu;Deng, Qianchun;Pei, Yaqiong;Hao, Qian;Zhou, Bin
关键词:Flaxseed; Plant-based milk; Cellulase; Stability; Oil bodies
-
Metabolic profiling of Perilla leaves of different colors: insights into metabolite variation and bioactive compound distribution
作者:Dossou, Senouwa Segla Koffi;Deng, Qianchun;Wang, Lei;Kefale, Habtamu;Zhou, Rong;Li, Donghua;Tan, Meilian;Wang, Linhai;Dossou, Senouwa Segla Koffi;Li, Feng;Jiang, Nanjun
关键词:Perilla; Metabolite profiling; Leaf color; Differentially accumulated metabolites; LC-MS/MS
-
Effect of oil and particles content on microstructure, rheology, and thermosensitive 3D printability of particles -stabilized high internal phase Pickering emulsions
作者:Wu, Chao;Liu, Zhe;Hei, Xue;Li, Shanshan;Jiao, Bo;Ma, Xiaojie;Hu, Hui;Wang, Qiang;Shi, Aimin;Wu, Chao;Ma, Xiaojie;Wang, Qiang;Shi, Aimin;McClements, David Julian
关键词:High internal phase Pickering emulsion; 3D printing; Thermosensitive 3D printing; Curcumin; Rheological properties
-
An enhancer-promoter-transcription factor module orchestrates plant immune homeostasis by constraining camalexin biosynthesis
作者:Zhang, Ying;Tang, Meng;Cheng, Qinglin;Xie, Jiatao;Cheng, Jiasen;Li, Bo;Jiang, Daohong;Yu, Xiao;Zhang, Ying;Tang, Meng;Cheng, Qinglin;Xie, Jiatao;Cheng, Jiasen;Fu, Yanping;Li, Bo;Jiang, Daohong;Yu, Xiao;Zhang, Ying;Tang, Meng;Cheng, Qinglin;Chen, Wei;Xie, Jiatao;Li, Bo;Jiang, Daohong;Yu, Xiao;Chen, Wei;Chen, Wei;Zhang, Yi;Liu, Lijiang
关键词:plant innate immunity; enhancers; antifungal resistance; transcriptional regulation; cis-regulatory ele-ments; transcription factors
-
Seasonal variation in non-volatile flavor substances of fresh tea leaves (Camellia sinensis) by integrated lipidomics and metabolomics using UHPLC-Q-Exactive mass spectrometry
作者:Chen, Le;Feng, Yuning;Wang, Shengnan;Zhou, Qinghua;Chen, Le;Zhang, Shan;Feng, Yuning;Jiang, Yongwen;Yuan, Haibo;Shan, Xujiang;Zhang, Qianting;Niu, Linchi;Li, Jia;Zhang, Shan;Zhang, Qianting;Shan, Xujiang
关键词:Fresh tea leaves; Seasonal variation; Lipidomics; Metabolomics; Black tea; Flavor quality
-
Interfacial and foaming properties of plant and microbial proteins: Comparison of structure-function behavior of different proteins
作者:Zhang, Xinyu;Liu, Zhe;Ma, Xiaojie;Zheng, Yicheng;Hu, Hui;Jiao, Bo;Wang, Qiang;Shi, Aimin;McClements, David Julian;Wang, Qiang;Wang, Qiang;Shi, Aimin
关键词:Plant and microbial proteins; Structural composition; Physicochemical properties; Foaming properties; Correlation analysis
