Plantain flour - A beneficial material for the organ and transcriptional profile of kidney of diabetic rats
文献类型: 外文期刊
作者: Fu, Jinfeng 1 ; Tu, Shiyun 1 ; Yi, Ganjun 2 ; Wang, Juan 1 ; Sheng, Ou 2 ; Zhang, Wanying 1 ;
作者机构: 1.South China Univ Technol, Sch Food Sci & Engn, Guangzhou 510641, Peoples R China
2.Guangdong Acad Agr Sci, Inst Fruit Tree Res, Minist Agr & Ruran Affairs, Guangdong Prov Key Lab Trop & Subtrop Fruit Tree R, Guangzhou 510640, Peoples R China
关键词: Diabetes mellitus; Plantain flour; Organ damage; Insulin resistance; Transcriptional profile
期刊名称:JOURNAL OF FUNCTIONAL FOODS ( 影响因子:5.6; 五年影响因子:5.3 )
ISSN: 1756-4646
年卷期: 2023 年 110 卷
页码:
收录情况: SCI
摘要: This study investigated the ameliorative effects of plantain flour on the organs of diabetic rats, and explored the mechanism from the perspective of kidney transcription. Diabetes was induced in rats by streptozotocin (STZ) and a high-sugar and high-fat diet. The alleviation effects and molecular mechanism of diabetes by plantain flour at different doses (1 g/kg & sdot;Bw, 2 g/kg & sdot;Bw, and 4 g /kg & sdot;Bw) were evaluated based on the analysis of biochemical indicators, histological observations, homeostasis model, and kidney transcriptome. The findings demonstrated that the intervention of plantain flour can reduce the level of alanine aminotransferase (ALT), aspartate aminotransferase (AST), and urea (UREA). The pathological study revealed that plantain flour can alleviate the pathological symptoms of fat accumulation in liver and kidney tissue. According to the homeostasis model, plantain flour was able to reduce insulin resistance in diabetic rats. Transcriptome analysis showed that plantain flour improved dyslipidemia by up-regulating Acsl1, down-regulating Fabp4 and Plin1, and reduced kidney injury by up-regulating Slco1a6, Hsd17b2, Cyp2c24, and Cyp2c11 genes. These results suggested that plantain flour could improve the organ damage caused by diabetes and has the potential to be developed into healthy food.
- 相关文献
作者其他论文 更多>>
-
Precise A
T-to-G C Base Editing in Banana 作者:Wu, Shaoping;Wu, Shaoping;Hu, Chunhua;Dou, Tongxin;Qin, Fei;Yin, Binhui;Bi, Fangcheng;Yang, Qiaosong;Yi, Ganjun;Hu, Chunhua;Dou, Tongxin;Bi, Fangcheng;Yang, Qiaosong;Yi, Ganjun;Zhu, Haocheng;Liu, Jinxing;Zhu, Haocheng;Yin, Binhui
关键词:Banana; Adenine base editor;
MaPDS ; Paraffin section; Deep amplicon sequencing -
Identification of Aspartate Aminotransferase FocAST2 as a Novel Target of Albendazole in Fusarium oxysporum f. sp. cubense TR4
作者:Liu, Yushan;Liu, Siwen;Peng, Cheng;Huang, Huoqing;Zhang, Wei;Huo, Yile;Yi, Ganjun;Li, Chunyu;Zeng, Weiqing
关键词:banana;
Foc TR4; albendazole; target; aspartate transaminase -
Regulation of starch metabolism in banana fruit: Mechanisms shaping the nutritional quality
作者:Li, Yaoyao;Gao, Huijun;Yi, Ganjun;Huang, Wenjie;Yan, Shijuan
关键词:
-
MaGA20ox2f, an OsSD1 homolog, regulates flowering time and fruit yield in banana
作者:Zhao, Wei;Hu, Chunhua;Deng, Guiming;Sheng, Ou;Bi, Fangcheng;He, Weidi;Dou, Tongxin;Dong, Tao;Li, Chunyu;Liu, Siwen;Gao, Huijun;Yi, Ganjun;Yang, Qiaosong;Zhao, Wei;Hu, Chunhua;Deng, Guiming;Sheng, Ou;Bi, Fangcheng;He, Weidi;Dou, Tongxin;Dong, Tao;Li, Chunyu;Liu, Siwen;Gao, Huijun;Yi, Ganjun;Yang, Qiaosong;Zhao, Wei;Li, Chunlong;Sun, Xiaoxuan;Wu, Shaoping;Wu, Shuofan;Huo, Heqiang
关键词:GA20 oxidase2; Gibberellin; Flowering time; Fruit yield; Banana
-
Characterization of SPL Family Genes in Banana Reveals the Critical Role of MaSPL1 in Regulating Fruit Ripening
作者:Wang, Bo;Dou, Tongxin;Sheng, Ou;He, Weidi;Deng, Guiming;Bi, Fangcheng;Li, Chunyu;Dong, Tao;Yang, Qiaosong;Hu, Chunhua;Gao, Huijun;Liu, Siwen;Liu, Cancan;Yi, Ganjun;Li, Yaoyao;Wang, Bo;Liu, Jihong
关键词:
Musa acuminata ; squamosa promoter-binding protein-like (SPL); genome-wide analysis; expression profile; functional characterization -
Ripening-stage variations in small metabolites across six banana cultivars: A metabolomic perspective
作者:Gao, Huijun;He, Weidi;Bi, Fangcheng;Hu, Chunhua;Deng, Guiming;Dou, Tongxin;Yang, Qiaosong;Li, Chunyu;Yi, Ganjun;Sheng, Ou;Dong, Tao;Liu, Ping
关键词:1 H NMR; Amino acids; Banana ripening; Metabolomics; Organic acids; Six banana cultivars; Soluble sugars; Starch degradation
-
Membrane-associated NAC transcription factor MaNAC169 is a positive regulator during banana fruit ripening
作者:Liu, Fan;Sun, Xueli;He, Jia;Sheng, Ou;Dou, Tongxin;Li, Yaoyao;He, Weidi;Yang, Qiaosong;Hu, Chunhua;Gao, Huijun;Yi, Ganjun;Bi, Fangcheng;Liu, Fan;He, Jia;Peng, Xinxiang;Shan, Jingjing
关键词:Banana; MaNAC169; NTL; Transcriptional regulation; Fruit ripening
