文献类型: 外文期刊
第一作者: Zheng, Yu
作者: Zheng, Yu;Cheng, Lai-Hoong;Zheng, Yu;Zhang, Ruifen;Huang, Fei;Jia, Xuchao;Xu, Liangxiong
作者机构:
关键词: Black soybean; Isoflavone; alpha-glucosidase; Affinity ultrafiltration; Molecular docking
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: 2023 年 189 卷
页码:
收录情况: SCI
摘要: Various studies have documented the beneficial effects of black soybean extract against diabetes. However, the specific active compounds responsible for these effects remain elusive. Here, we aimed to identify the alpha-glucosidase inhibitors present in black soybeans using affinity ultrafiltration. Seven isoflavones with alpha-glucosidase inhibitory activity were identified, among which daidzein and genistein demonstrated remarkably superior inhibitory activity compared to that of acarbose (IC50 = 632.5 +/- 70.0 mu mol/L), exhibiting IC(50 )values of 15.7 +/- 0.3 and 3.2 +/- 1.2 mu mol/L, respectively. An analysis of the structure-activity relationship revealed a negative correlation between the degree of glycosylation of isoflavone and alpha-glucosidase inhibitory activity. Enzyme kinetic studies revealed that both daidzein and genistein acted as uncompetitive inhibitors of alpha-glucosidase. Additionally, these compounds effectively suppressed the intrinsic fluorescence of alpha-glucosidase through the static quenching mechanism. The interaction between daidzein or genistein and alpha-glucosidase involves spontaneous formation of a complex, which is driven by hydrophobic interactions and hydrogen bonds. These findings provide valuable insights into the molecular mechanisms underlying the alpha-glucosidase inhibitory acof black isoflavones.
分类号:
- 相关文献
作者其他论文 更多>>
-
Structural elucidation, binding sites exploration and biological activities of bound phenolics from Radix Puerariae Thomsonii
作者:Li, Weixin;Zhang, Min;Zhang, Ruifen;Huang, Fei;Dong, Lihong;Jia, Xuchao;Zhang, Mingwei
关键词:Radix puerariae thomsonii; Bound phenolics; Antioxidant activity; Alcohol -metabolizing enzymes; Carbohydrate -hydrolyzing enzymes; Stepwise enzymatic hydrolysis
-
Lacticaseibacillus casei- and Bifidobacterium breve-fermented red pitaya promotes beneficial microbial proliferation in the colon
作者:Cao, Li;Wan, Mengxi;Xian, Zhixing;Zhou, Yongqiang;Su, Dongxiao;Dong, Lihong;Huang, Fei
关键词:
-
Comparison of different longan polysaccharides during gut Bacteroides fermentation
作者:Wang, Jidongtian;Ma, Yongxuan;Xu, Xiang;Huang, Guitao;Zhang, Ruifen;Jia, Xuchao;Dong, Lihong;Deng, Mei;Zhang, Mingwei;Huang, Fei;Zhang, Mingwei
关键词:Bacteroides; Fermentation properties; Longan polysaccharide
-
Shatianyu dietary fiber (Citrus grandis L. Osbeck) promotes the production of active metabolites from its flavonoids during in vitro colonic fermentation
作者:Zhang, Ruifen;Zhang, Mingwei;Deng, Mei;Ye, Jiamin;Zhang, Ruifen;Zhang, Shuai;Dong, Lihong;Huang, Fei;Jia, Xuchao;Ma, Qin;Zhao, Dong;Zhang, Mingwei;Ye, Jiamin;Su, Dongxiao;Zhang, Mingwei
关键词:Citrus grandis L. Osbeck; colonic fermentation; dietary fiber; flavonoids; gut microbiota; phenolic metabolites
-
In vitro human gut microbiota fermentation of litchi pulp polysaccharides as affected by Lactobacillus pre-treatment
作者:Xia, Chunmei;Zhang, Ruifen;Jia, Xuchao;Dong, Lihong;Ma, Qin;Zhao, Dong;Huang, Fei;Zhang, Mingwei;Xia, Chunmei;Sun, Zhida;Zhang, Mingwei;Zhang, Mingwei;Lee, Yuan Kun
关键词:Litchi polysaccharide; Fermentation; Prebiotic activity
-
Effects of polysaccharides on colonic targeting and colonic fermentation of ovalbumin-ferulic acid based emulsion
作者:Liu, Hesheng;Huang, Zhenzhen;Xin, Ting;Han, Lipeng;Su, Dongxiao;Dong, Lihong;Deng, Mei;Huang, Fei;Huang, Fei
关键词:Rutin; Ovalbumin; Emulsion; Colonic targeting; Colonic fermentation
-
Carbohydrate addition strategy affects nitrogen dynamics, budget and utilization, and its microbial mechanisms in biofloc-based Penaeus vannamei culture
作者:Xu, Wujie;Su, Haochang;Hu, Xiaojuan;Xu, Yu;Wen, Guoliang;Cao, Yucheng;Xu, Wujie;Cao, Yucheng;Huang, Fei;Zhao, Yongzhen;Zhao, Yongzhen;Cao, Yucheng
关键词:Biofloc technology; Closed aquaculture system; N management; N-cycling microbiome; Molasses addition
