Modulation of the human gut microbiota by dietary fibres occurs at the species level
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Considerations For Optimizing Microbiome Analysis Using a Marker GeneModulation of microbiota as treatment for intestinal inflammatory disorders: An uptodateThe microbiota and chronic kidney diseases: a double-edged swordNew insights into therapeutic strategies for gut microbiota modulation in inflammatory diseasesGut microbiota and colorectal cancer.Epigenetic Biomarkers in Colorectal Cancer.Microbial nutrient niches in the gut.pH-Mediated Microbial and Metabolic Interactions in Fecal Enrichment Cultures.Effects of Commercial Apple Varieties on Human Gut Microbiota Composition and Metabolic Output Using an In Vitro Colonic Model.Are the Gut Bacteria Telling Us to Eat or Not to Eat? Reviewing the Role of Gut Microbiota in the Etiology, Disease Progression and Treatment of Eating Disorders.Diet-microbiota interactions as moderators of human metabolism.Sex differences in colonization of gut microbiota from a man with short-term vegetarian and inulin-supplemented diet in germ-free mice.The Maternal Diet, Gut Bacteria, and Bacterial Metabolites during Pregnancy Influence Offspring Asthma.The Gut Microbiota, Food Science, and Human Nutrition: A Timely Marriage.Microbial approaches for targeting antibiotic-resistant bacteria.Functional implications of microbial and viral gut metagenome changes in early stage L-DOPA-naïve Parkinson's disease patients.Gut microbiota, diet, and obesity-related disorders-The good, the bad, and the future challenges.Formation of propionate and butyrate by the human colonic microbiota.Faecalibacterium prausnitzii: from microbiology to diagnostics and prognostics.Impact of Dietary Fibers on Nutrient Management and Detoxification Organs: Gut, Liver, and Kidneys.Microbiota: a key orchestrator of cancer therapy.Effects of Probiotics, Prebiotics, and Synbiotics on Human Health.Modulation of Gut Microbiota of Overweight Mice by Agavins and Their Association with Body Weight Loss.Reduction of Flavodoxin by Electron Bifurcation and Sodium Ion-dependent Reoxidation by NAD+ Catalyzed by Ferredoxin-NAD+ Reductase (Rnf).Prebiotic potential of pectin and pectic oligosaccharides to promote anti-inflammatory commensal bacteria in the human colon.Impact and consequences of polyphenols and fructooligosaccharide interplay on gut microbiota in rats.Distinctive microbiomes and metabolites linked with weight loss after gastric bypass, but not gastric banding.In vitro human colonic fermentation of indigestible fraction isolated from lunch menus: impact on the gut metabolites and antioxidant capacity.What's the risk? Identifying potential human pathogens within grey-headed flying foxes faeces.Specific substrate-driven changes in human faecal microbiota composition contrast with functional redundancy in short-chain fatty acid production.Porcine Small and Large Intestinal Microbiota Rapidly Hydrolyze the Masked Mycotoxin Deoxynivalenol-3-Glucoside and Release Deoxynivalenol in Spiked Batch Cultures In Vitro.Integrative Personal Omics Profiles during Periods of Weight Gain and Loss.Embracing the co-operative society to better understand assembly of the gut microbiota.Gut Microbial Changes, Interactions, and Their Implications on Human Lifecycle: An Ageing Perspective.Understanding the prebiotic potential of different dietary fibers using an in vitro continuous adult fermentation model (PolyFermS).Oral Delivery of Nisin in Resistant Starch Based Matrices Alters the Gut Microbiota in Mice.The influence of in vitro pectin fermentation on the human fecal microbiome.Predictability and persistence of prebiotic dietary supplementation in a healthy human cohortFiber Supplements Derived From Sugarcane Stem, Wheat Dextrin and Psyllium Husk Have Different Effects on the Human Gut MicrobiotaDietary fibers inhibit obesity in mice, but host responses in the cecum and liver appear unrelated to fiber-specific changes in cecal bacterial taxonomic composition
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Modulation of the human gut microbiota by dietary fibres occurs at the species level
description
2016 nî lūn-bûn
@nan
2016 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2016 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2016年の論文
@ja
2016年学术文章
@wuu
2016年学术文章
@zh-cn
2016年学术文章
@zh-hans
2016年学术文章
@zh-my
2016年学术文章
@zh-sg
2016年學術文章
@yue
name
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@ast
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@en
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@nl
type
label
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@ast
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@en
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@nl
prefLabel
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@ast
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@en
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@nl
P2093
P2860
P50
P3181
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P1476
Modulation of the human gut microbiota by dietary fibres occurs at the species level
@en
P2093
Douwina Bosscher
Harry J Flint
Joan Vermeiren
Julian Parkhill
Sylvia H Duncan
P2860
P2888
P3181
P356
10.1186/S12915-015-0224-3
P407
P577
2016-01-11T00:00:00Z
P5875
P6179
1046701169