Analysis of the mechanism of difference in umami peptides from oysters (Crassostrea ariakensis) prepared by trypsin hydrolysis and boiling through hydrogen bond interactions
文献类型: 外文期刊
第一作者: Yu, Ermeng
作者: Yu, Ermeng;Fang, Yikun;Fang, Yikun;Yu, Ermeng;Lv, Min;Pan, Chuanyan;Lo, Xu;Ya, Shiya;Ma, Huawei
作者机构:
关键词: Oyster; Umami peptide; Hydrogen bond interaction; Cleavage site; Molecular docking; Molecular electrostatic potential
期刊名称:FOOD CHEMISTRY ( 影响因子:9.8; 五年影响因子:9.7 )
ISSN: 0308-8146
年卷期: 2025 年 476 卷
页码:
收录情况: SCI
摘要: This study compares umami peptides prepared by trypsin hydrolysis and boiling and analyzes their umami intensity and characteristics. Using a taste reconstitution model and taste evaluation analysis, the study revealed that umami peptides prepared by boiling have a higher umami contribution. Myosin and heat shock protein were identified as marker proteins for revealing differences of cleavage sites. Boiling releases a higher proportion of acidic amino acids at the protein cleavage sites p1-p1', whereas trypsin hydrolysis releases more basic amino acids. Molecular docking simulation and electrostatic potential observation showed that acidic amino acid residues have a wider binding range with the umami receptor T1R1-VFT. Acidic amino acids lower the isoelectric point (pI) of umami peptides, enhancing their negative charge at pH 7, which are more likely to bind to the positively charged regions of the umami receptor.
分类号:
- 相关文献
作者其他论文 更多>>
-
The lingering menace: How legacy organochlorine pesticides still threaten our rivers and food chains
作者:Xie, Wenping;Wang, Guangjun;Yu, Ermeng;Xie, Jun;Gong, Wangbao;Li, Zhifei;Zhang, Kai;Xia, Yun;Tian, Jingjing;Li, Hongyan
关键词:Pearl River Delta; Aquatic organisms; Bioaccumulation; Edible health risk
-
Comprehensive molecular biology and metabolomics analysis reveal the changes on muscle quality of Megalobrama amblycephala exposure to ammonia nitrogen during transportation
作者:Peng, Ling;Rahman, Ziaur;Yin, Tao;Xiong, Shanbai;You, Juan;Liu, Ru;Huang, Qilin;Tian, Yuanyong;Wang, Lan;Ma, Huawei
关键词:Muscle quality; Oxidative stress; Metabolism; Apoptosis
-
The Naturally Bioactive Vicine Extracted from Faba Beans Is Responsible for the Transformation of Grass Carp (Ctenopharyngodon idella) into Crisp Grass Carp
作者:Tian, Jingjing;Xie, Jun;Yu, Ermeng;Zheng, Xinyu;Hou, Jilun;Zheng, Xinyu;Hou, Jilun;Zheng, Xinyu;Hou, Jilun;Yu, Ermeng;Kaneko, Gen;Fu, Bing;Luo, Minyi
关键词:reactive oxygen species; oxidant stress; vicine; grass carp; textural quality
-
Gelatin from specific freshwater and saltwater fish extracted using six different methods: Component interactions, structural characteristics, and functional properties
作者:Yu, Ermeng;Yu, Ermeng;Pan, Chuanyan;Chen, Weijie;Ruan, Qiufeng;Luo, Xu;Lv, Min;Fang, Yikun;Jiang, Linyuan;Ma, Huawei;Fang, Yikun;Pan, Chuanyan;Ma, Huawei
关键词:Fish gelatin; Dry-salting and wet-salting methods; Components; Structural and functional properties; High-performance liquid chromatography-mass spectrometry (HPLC-MS)
-
Optimization of multi-dimensional indices for kiwifruit orchard soil moisture content estimation using UAV and ground multi-sensors
作者:Zhu, Shidan;Cui, Ningbo;Guo, Li;Jiang, Shouzheng;Wu, Zongjun;Lv, Min;Chen, Fei;Liu, Quanshan;Wang, Mingjun;Jin, Huaan;Jin, Xiuliang
关键词:Root-zone soil moisture content; UAV-Ground multi-sensor data; Ti-VIi-CWSI space; Ensemble learning model; Planted-by-planted-grid mapping
-
Betaine improves appetite regulation and glucose-lipid metabolism in mandarin fish (Siniperca chuatsi) fed a high-carbohydrate-diet by regulating the AMPK/mTOR signaling
作者:Li, Hongyan;Zeng, Yanzhi;Wang, Guangjun;Zhang, Kai;Gong, Wangbao;Li, Zhifei;Tian, Jingjing;Xia, Yun;Xie, Wenping;Xie, Jun;Yu, Ermeng;Li, Hongyan;Xie, Shouqi;Li, Hongyan;Zeng, Yanzhi
关键词:Mandarin fish; Betaine; AMPK/mTOR; Appetite regulation; Glucose-lipid metabolism
-
Resistance patterns and molecular basis to ACCase-inhibiting herbicides
作者:Yang, Qian;Wei, Tian;Zhu, Jinlei;Lv, Min;Deng, Wei;Liu, Longwei;Yang, Xia;Li, Yongfeng
关键词:ACCase gene mutation; cross-resistance; metamifop; target site-based resistance
