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- Li, Shuyi, et al. Show all 7 Authors
- Food research international 2019 v.123 pp. 355-363
- ABC transporters; Litchi; advanced glycation end products; biodegradation; body weight; colon; glutathione peroxidase; high fat diet; intestinal microorganisms; inulin; lipid metabolism; liver; malondialdehyde; mice; pericarp; physicochemical properties; polymerization; procyanidins; regulator genes; sterols
- ... The physicochemical properties, biological functions and microbial degradation of inulins differ according to their degree of polymerization. However, the relationship between inulin activities and its effect on gut microbiota remains unknown. In this study, high fat diet with inulin (1 or 5 g/kg·bw), either with short or long chains groups were administered to different groups of mice (n = 10) fo ...