Search results for "lacto-n-biose"

showing 3 items of 3 documents

Human milk and mucosa-associated disaccharides impact on cultured infant fecal microbiota

2020

Human milk oligosaccharides (HMOs) are a mixture of structurally diverse carbohydrates that contribute to shape a healthy gut microbiota composition. The great diversity of the HMOs structures does not allow the attribution of specific prebiotic characteristics to single milk oligosaccharides. We analyze here the utilization of four disaccharides, lacto-N-biose (LNB), galacto-N-biose (GNB), fucosyl-α1,3-GlcNAc (3FN) and fucosyl-α1,6-GlcNAc (6FN), that form part of HMOs and glycoprotein structures, by the infant fecal microbiota. LNB significantly increased the total levels of bifidobacteria and the species Bifidobacterium breve and Bifidobacterium bifidum. The Lactobacillus genus levels wer…

0301 basic medicineFormatesMolecular biologymedicine.medical_treatmentved/biology.organism_classification_rank.specieslcsh:MedicineMicrobiologiaGut floraAcetatesBifidobacterium breveDisaccharidesFecesfluids and secretionsFucosyl-α13-GlcNAcLactobacillusFood sciencelcsh:ScienceBifidobacterium2. Zero hungerClostridialesMultidisciplinaryBifidobacterium brevebiologyHuman milk oligosaccharidesfood and beveragesFucosyl-α16-GlcNAcEnterobacteriaceae3. Good healthDNA Bacterial030106 microbiologyGut microbiotaDisaccharidasesMicrobiologydigestive systemArticleAcetylglucosamine03 medical and health sciencesEnterobacteriaceaemedicineHumansLactic AcidGalacto-N-bioseBifidobacterium bifidumMilk Humanved/biologyPrebioticlcsh:RInfantbiology.organism_classificationLactobacilsGastrointestinal MicrobiomeLactobacillus030104 developmental biologyPrebioticslcsh:QFermentationBifidobacterium bifidumLacto-N-biose
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Human milk and mucosal lacto- and galacto-N-biose synthesis by transgalactosylation and their prebiotic potential in Lactobacillus species.

2017

Lacto-N-biose (LNB) and galacto-N-biose (GNB) are major building blocks of free oligosaccharides and glycan moieties of glyco-complexes present in human milk and gastrointestinal mucosa. We have previously characterized the phospho-β-galactosidase GnbG from Lactobacillus casei BL23 that is involved in the metabolism of LNB and GNB. GnbG has been used here in transglycosylation reactions, and it showed the production of LNB and GNB with N-acetylglucosamine and N-acetylgalactosamine as acceptors, respectively. The reaction kinetics demonstrated that GnbG can convert 69 ± 4 and 71 ± 1 % of o-nitrophenyl-β-d-galactopyranoside into LNB and GNB, respectively. Those reactions were performed in a s…

0301 basic medicineGlycanLactobacillus caseiTransglycosylationAcetylgalactosamineGlycosylationMagnetic Resonance SpectroscopyGlycoside Hydrolasesmedicine.medical_treatment030106 microbiologyMicrobiologiaPrebioticBiologyLactobacillus gasseriDisaccharidesApplied Microbiology and BiotechnologyMicrobiologyAcetylglucosamine03 medical and health sciencesLactobacillus rhamnosusmedicineIntestinal MucosaGalacto-N-bioseLactobacillus johnsoniiMilk HumanPrebioticHuman milk oligosaccharidesfood and beveragesNucleic Acid HybridizationGeneral MedicineMetabolismbiology.organism_classificationLactobacilsKineticsLactobacillus030104 developmental biologyPrebioticsBiochemistrybiology.proteinFermentationLacto-N-bioseBiotechnologyApplied microbiology and biotechnology
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Infant gut microbiota modulation by human milk disaccharides in humanized microbiome mice

2021

Human milk glycans present a unique diversity of structures that suggest different mechanisms by which they may affect the infant microbiome development. A humanized mouse model generated by infant fecal transplantation was utilized here to evaluate the impact of fucosyl-α1,3-GlcNAc (3FN), fucosyl-α1,6-GlcNAc, lacto-N-biose (LNB) and galacto-N-biose on the fecal microbiota and host–microbiota interactions. 16S rRNA amplicon sequencing showed that certain bacterial genera significantly increased (Ruminococcus and Oscillospira) or decreased (Eubacterium and Clostridium) in all disaccharide-supplemented groups. Interestingly, cluster analysis differentiates the consumption of fucosyl-oligosacc…

0301 basic medicineMaleBifidobacterium longuminfant fecal microbiotaMicrobiologiaRC799-869Gut floraAcetatesDisaccharidesFecesMice0302 clinical medicinelacto-n-biosefluids and secretionsRuminococcus gnavusRNA Ribosomal 16SEubacteriumgalacto-n–bioseBifidobacteriumbiologyGastroenterologyDiseases of the digestive system. Gastroenterologylacto-N-biosegalacto-N–biosefucosyl-α-1ButyratesInfectious Diseases030211 gastroenterology & hepatologyFemaleResearch ArticleResearch PaperMicrobiology (medical)AdultDNA Bacterialhumanized mouse modelInfants Malaltiesshort-chain fatty acidsMicrobiologyMicrobiology03 medical and health sciencesfucosyl-α-16-N-acetylglucosamineYoung AdultAnimalsHumans6-n-acetylglucosamineMicrobiomeBacteriaMilk HumanRuminococcusInfant NewbornInfantAkkermansiafucosyl-α-13-N-acetylglucosaminebiology.organism_classificationcytokinesGastrointestinal Microbiome3-n-acetylglucosamineMice Inbred C57BL030104 developmental biologyshort-chain fatty acidscytokineshuman milk oligosaccharides
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