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Preparation and Gut Microbiota Modulatory Property of the Oligosaccharide Riclinoctaose

Lei Wang, Rui Cheng, Xiaqing Sun, Yang Zhao, Wenhao Ge, Yunxia Yang, Yan Gao, Zhao Ding, Junhao Liu, Jianfa Zhang

2021Journal of Agricultural and Food Chemistry24 citationsDOI

Abstract

In relation to available polysaccharides, oligosaccharides have a low molecular weight, less viscosity, and complete water solubility. These properties endow oligosaccharides with significant biological properties including the microbiota regulation ability. In this study, a homogeneous oligooctasaccharide, riclinoctaose, was biosynthesized from succinylglycan riclin by enzymatic degradation. Monosaccharide composition, Fourier-transform infrared, electrospray ionization mass spectrometry, and nuclear magnetic resonance spectrometry analysis indicated that riclinoctaose is an oligooctasaccharide consisting of one galactose and seven glucose residues, with a pyruvate group linked to the terminal glucose residue. The effects of dietary riclinoctaose on the gut microbiota of mice were evaluated. We found that the dietary riclinoctaose significantly altered intestinal microbiota with the increased growth of beneficial intestinal bacteria including Bifidobacteria and Lactobacillus and decreased the abundance of pernicious bacteria such as Gammaproteobacteria. The level of short-chain fatty acids (SCFAs) was significantly elevated in the riclinoctaose cecum. Our results suggested that riclinoctaose as a prebiotic may have a great potential application in functional foods.

Topics & Concepts

Gut floraMonosaccharidePrebioticChemistryCecumBiochemistryPolysaccharideLactobacillusOligosaccharideBacteriaBifidobacteriumGalactoseFood scienceBiologyFermentationEcologyGeneticsGut microbiota and healthDigestive system and related healthProbiotics and Fermented Foods