4.7 Article

Glycosidic linkage of rare and new-to-nature disaccharides reshapes gut microbiota in vitro

Journal

FOOD CHEMISTRY
Volume 411, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.foodchem.2023.135440

Keywords

Disaccharides; Glycosidic linkage; Kojibiose; Trehalose; Fibrulose; Gut microbiota; Prebiotics

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The impact of glycosidic linkage of rare and new-to-nature disaccharides on gut bacteria was studied in vitro. The fermentation of trehalose and fibrulose was faster, resulting in a loss of bacterial diversity, shorter lag time, lower pH, and higher total short-chain fatty acid production. Bacteroides decreased under disaccharide supplementation, indicating a loss in complex carbohydrates metabolizing capacity. Fibrulose and L-arabinose glucoside stimulated bifidobacteria, while trehalose, ribose glucoside, and 4'-epitrehalose suppressed their growth. Bifidobacteria increased slightly with 4'-epi-kojibiose, nigerose, and kojibiose supplementation. Preconditioning in kojibiose medium significantly enhanced bifidobacteria growth upon reinoculation. This study highlights the importance of the structure-function relationship of disaccharides in shaping the gut bacterial community.
The impact of glycosidic linkage of seven rare and new-to-nature disaccharides on gut bacteria was assessed in vitro. The community shift of the inocula from four donors in response to 1 % (w/v) disaccharide supplemen-tation was captured by sequencing the 16S rRNA gene. A significant loss of bacterial alpha diversity, short lag time, low pH, and high total short-chain fatty acid displayed a faster fermentation of trehalose(Glc-alpha 1,1 alpha-Glc) and fibrulose(fructan, DP2-10). Bacteroides reduced in relative abundance under disaccharide supplementation suggesting a loss in complex carbohydrates metabolizing capacity. Fibrulose and L-arabinose glucoside(Glc-alpha 1,3-L-Ara) significantly stimulated bifidobacteria but was suppressed with trehalose, ribose glucoside(Glc-alpha 1,2-Rib), and 4 '-epitrehalose(Glc-alpha 1,1 alpha-Gal) supplementation. Albeit insignificant, bifidobacteria increased with 4 '-epi-kojibiose(Glc-alpha 1,2-Gal), nigerose(Glc-alpha 1,3-Glc), and kojibiose(Glc-alpha 1,2-Glc). Prior conditioning of inoculum in kojibiose medium profoundly induced bifidobacteria by 44 % and 55 % upon reinoculation into kojibiose and fibrulose-supplemented media respectively. This study has demonstrated the importance of the disaccharide structure-function relationship in driving the gut bacterial community.

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