Ferulic acid regulates proso millet starch digestibility through alteration of starch multiscale structure and inhibition of digestive enzymes
文献类型: 外文期刊
第一作者: Qiao, Jiawei
作者: Qiao, Jiawei;Zhang, Zhuo;Xing, Bao;Liang, Yongqiang;Zhou, Jiankang;Jia, Min;Niu, Jiahui;Ren, Guixing;Zhang, Lizhen;Meng, Qiuxia;Li, Hai;Qin, Peiyou;Qin, Peiyou
作者机构:
关键词: Panicum miliaceum L.; Amylose; Hydrophobic sites; Steric hindrance; Competitive inhibition
期刊名称:LWT-FOOD SCIENCE AND TECHNOLOGY ( 影响因子:6.0; 五年影响因子:6.0 )
ISSN: 0023-6438
年卷期: 2024 年 205 卷
页码:
收录情况: SCI
摘要: This study aimed to investigate the regulatory mechanism of ferulic acid (FA) on proso millet starch (PMS) digestion. When the FA addition amount 0.2 g per g of starch, the relative crystallinity values of nonwaxy PMS (NS)-FA complexes and waxy PMS (WS)-FA complexes were higher by 15% and 6%, and the specific surface area decreased by 0.10 and 0.03 m2/g, respectively. The PMS-FA complexes gradually formed non-V-type inclusion aggregates with increased FA addition. FA could also inhibit digestive enzyme activity by binding to the active sites of alpha-amylase and amyloglucosidase. Compared with WS-FA, NS-FA complexes were more suitable for the preparation of low-glycemic index foods. The steric hindrance of enzymes by the complex structure and inhibitory effect of FA on the enzymes were the major reasons for the reduced digestibility of starch in complexes. These findings provided evidence for the use of FA to reduce the postprandial glycemic response of starchy foods.
分类号:
- 相关文献
作者其他论文 更多>>
-
An underutilized bean: hyacinth bean [Lablab purpureus (L.) sweet]: bioactive compounds, functional activity, and future food prospect and applications
作者:Zhou, Jiankang;Wang, Wenting;Zhang, Zhuo;Qiao, Jiawei;Bai, Yu;Zhao, Chaofan;Qin, Peiyou;Zhang, Lizhen;Ren, Guixing;Zhou, Jiankang;Guo, Shengyuan;Qin, Peiyou;Ren, Guixing;Zhou, Jiankang;Zhang, Zhuo;Qin, Peiyou;Ren, Guixing;Zhu, Gege;Teng, Cong
关键词:hyacinth bean; bioactive compounds; health benefits; future application
-
Full-length transcriptome and RNA-Seq analyses reveal the resistance mechanism of sesame in response to Corynespora cassiicola
作者:Jia, Min;Ni, Yunxia;Zhao, Hui;Liu, Xintao;Yan, Wenqing;Zhao, Xinbei;Wang, Jing;He, Bipo;Liu, Hongyan;Jia, Min;Ni, Yunxia;Zhao, Hui;Liu, Hongyan
关键词:Sesame; full-length transcriptome; WGCNA; resistant; susceptible; Corynespora cassiicola
-
Plant-based proteins: advances in their sources, digestive profiles in vitro and potential health benefits
作者:Li, Mengzhuo;Qin, Peiyou;Zou, Liang;Qin, Peiyou;Zhang, Lizhen;Ren, Guixing;Liu, Yang;Zhao, Xiaoyan;Qin, Peiyou
关键词:Plant-based proteins; protein sources; in vitro digestion; processing; health benefits
-
Effect of high moisture extrusion on the structure and physicochemical properties of Tartary buckwheat protein and its in vitro digestion
作者:Zhang, Zhuo;Bai, Yu;Qiao, Jiawei;Liang, Yongqiang;Zhou, Jiankang;Guo, Shengyuan;Zhao, Chaofan;Xing, Bao;Zhang, Lizhen;Ren, Guixing;Qin, Peiyou;Guo, Shengyuan;Qin, Peiyou;Ren, Guixing
关键词:Tartary buckwheat protein; High moisture extrusion; Structural characteristics; Physicochemical properties; In vitro digestibility
-
Key phytochemicals contributing to the bitterness of quinoa
作者:Guo, Huimin;Liu, Chenghong;Xu, Hongwei;Wang, Siyu;Bao, Yuying;Ren, Guixing;Ren, Guixing;Bao, Yuying;Ren, Guixing;Yang, Xiushi
关键词:Triterpenoid; Kaempferol derivative; Bitterness; Sensory evaluation; Dose -over -threshold
-
Whole-Genome Resequencing-Based Qualitative Trait Locus Mapping Correlated yellow with the Mutant Color in Honeybees, Apis cerana cerana
作者:Shao, Shanshan;Huang, Qiang;Pei, Yalin;Hu, Junyan;Wang, Zilong;Zhang, Lizhen;He, Xujiang;Wu, Xiaobo;Yan, Weiyu;Shao, Shanshan;Huang, Qiang;Pei, Yalin;Hu, Junyan;Wang, Zilong;Zhang, Lizhen;He, Xujiang;Wu, Xiaobo;Yan, Weiyu;Shao, Shanshan
关键词:Apis cerana cerana; resequencing; brown mutation; yellow; RNA interference
-
Solitary eosinophilic granulocytic sarcoma in a dog
作者:Hu, Shou-Ping;Xiao, Fei;Zhang, Zhuo;Jiang, Yan;Mao, Dong-Sheng;Wang, Jing-Fei;He, Xi-Jun
关键词:dogs; granulocytic sarcoma
