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Type of intrinsic resistant starch type 3 determines in vitro fermentation by pooled adult faecal inoculum

Cynthia E. Klostermann, Martha F. Endika, E. ten Cate, P.L. Buwalda, Paul de Vos, Johannes H. Bitter, Erwin G. Zoetendal, Henk A. Schols

2023Carbohydrate Polymers24 citationsDOIOpen Access PDF

Abstract

Resistant starch (RS) results in relatively high health-beneficial butyrate levels upon fermentation by gut microbiota. We studied how physico-chemical characteristics of RS-3 influenced butyrate production during fermentation. Six highly resistant RS-3 substrates (intrinsic RS-3, 80-95 % RS) differing in chain length (DPn 16-76), Mw distribution (PI) and crystal type (A/B) were fermented in vitro by pooled adult faecal inoculum. All intrinsic RS-3 substrates were fermented to relatively high butyrate levels (acetate/butyrate ≤ 2.5), and especially fermentation of A-type RS-3 prepared from polydisperse α-1,4 glucans resulted in the highest relative butyrate amount produced (acetate/butyrate: 1). Analysis of the microbiota composition after fermentation revealed that intrinsic RS-3 stimulated primarily Lachnospiraceae, Bifidobacterium and Ruminococcus, but the relative abundances of these taxa differed slightly depending on the RS-3 physico-chemical characteristics. Especially intrinsic RS-3 of narrow disperse Mw distribution stimulated relatively more Ruminococcus. Selected RS fractions (polydisperse Mw distribution) obtained after pre-digestion were fermented to acetate and butyrate (ratio ≤ 1.8) and stimulated Lachnospiraceae and Bifidobacterium. This study indicates that especially the α-1,4 glucan Mw distribution dependent microstructure of RS-3 influences butyrate production and microbiota composition during RS-3 fermentation.

Topics & Concepts

FermentationButyrateLachnospiraceaeRuminococcusFood scienceResistant starchChemistryBifidobacteriumGut floraBiologyStarchBiochemistryLactobacillusFirmicutes16S ribosomal RNAGeneFood composition and propertiesGut microbiota and healthMicrobial Metabolites in Food Biotechnology