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Cell Wall Integrity of Pulse Modulates the in Vitro Fecal Fermentation Rate and Microbiota Composition.

Journal of agricultural and food chemistry (2020-01-04)
Nannan Guan, Xiaowei He, Shaokang Wang, Feitong Liu, Qiang Huang, Xiong Fu, Tingting Chen, Bin Zhang
RÉSUMÉ

The physical structure of type 1 resistant starch (RS 1) could influence the metabolite production and stimulate the growth of specific bacteria in the human colon. In the present study, we isolated intact cotyledon cells from pinto bean seeds as whole pulse food and RS 1 model and obtained a series of cell wall integrities through controlled enzymolysis. In vitro human fecal fermentation performance and microbiota responses were tested, and we reported that the cell wall integrity controls the in vitro fecal fermentation rate of heat-treated pinto bean cells. The concentration of butyrate produced by pinto bean cell fermentation enhanced with weakened cell wall integrity, and certain beneficial bacterial groups such as Blautia and Roseburia genera were remarkably promoted by pinto bean cells with damaged cell wall integrity. However, the intact cell sample had a shape more similar to microbiota composition with the purified cell wall polysaccharides, rather than the damaged cells.

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Sigma-Aldrich
Viscozyme® L, cellulolytic enzyme mixture
Sigma-Aldrich
Fructooligosaccharides from chicory, ≥90% (as FOS and inulin)