about
sameAs
Mycolactone diffuses from Mycobacterium ulcerans-infected tissues and targets mononuclear cells in peripheral blood and lymphoid organsEnterotypes of the human gut microbiomeStructural robustness of the gut mucosal microbiota is associated with Crohn's disease remission after surgeryBacteroides sp. strain D8, the first cholesterol-reducing bacterium isolated from human fecesTowards the human intestinal microbiota phylogenetic coreA metagenomic insight into our gut's microbiomeA fibrolytic potential in the human ileum mucosal microbiota revealed by functional metagenomicA metagenomic β-glucuronidase uncovers a core adaptive function of the human intestinal microbiome.Proteorhodopsin phototrophy in the ocean.Characterization of the xylan-degrading microbial community from human faeces.Inferring Aggregated Functional Traits from Metagenomic Data Using Constrained Non-negative Matrix Factorization: Application to Fiber Degradation in the Human Gut MicrobiotaDiversity of the archaeal community in 44 anaerobic digesters as determined by single strand conformation polymorphism analysis and 16S rDNA sequencing.Bacterial imprinting of the neonatal immune system: lessons from maternal cells?Development of high-throughput phenotyping of metagenomic clones from the human gut microbiome for modulation of eukaryotic cell growth.Functional metagenomics to mine the human gut microbiome for dietary fiber catabolic enzymes.Kinetic modelling of lactate utilization and butyrate production by key human colonic bacterial species.Highlighting new phylogenetic specificities of Crohn's disease microbiota.Functional metagenomics reveals novel pathways of prebiotic breakdown by human gut bacteria.Bacteriophages: an underestimated role in human and animal health?Identification of metabolic signatures linked to anti-inflammatory effects of Faecalibacterium prausnitzii.Gut microbiota richness promotes its stability upon increased dietary fibre intake in healthy adults.Respective Roles of Hematopoietic and Nonhematopoietic Nod2 on the Gut Microbiota and Mucosal Homeostasis.Gut Microbiota Diversity and Human Diseases: Should We Reintroduce Key Predators in Our Ecosystem?Structure of protein emulsion in food impacts intestinal microbiota, caecal luminal content composition and distal intestine characteristics in rats.Mathematical modelling of carbohydrate degradation by human colonic microbiota.Lipo-Protein Emulsion Structure in the Diet Affects Protein Digestion Kinetics, Intestinal Mucosa Parameters and Microbiota Composition.Diversity of H2/CO2-utilizing acetogenic bacteria from feces of non-methane-producing humans.Enterotypes of the human gut microbiomeAltered gut microbiota composition in immune-impaired Nod2(-/-) miceModulation of the microbiota by oral antibiotics treats immunoglobulin A nephropathy in humanized micePotential role of the intestinal microbiota of the mother in neonatal immune educationEffect of Yeast Extract on Growth and Metabolism of H 2 -Utilizing Acetogenic Bacteria from the Human ColonDietary Protein Intake Level Modulates Mucosal Healing and Mucosa-Adherent Microbiota in Mouse Model of Colitis13C-NMR study of glucose and pyruvate catabolism in four acetogenic species isolated from the human colonInvestigating Host Microbiota Relationships Through Functional MetagenomicsMucosal healing progression after acute colitis in mice
P50
Q21090122-37F915C1-3ABB-49F9-8337-279E87C32A59Q24489818-2AAF00C7-CEA9-4E35-A67E-62EC145F9977Q24658549-D7BB0978-6B71-40EF-8C7F-89A2A9D3F90EQ24679654-40743682-CDB0-415F-9295-1DAD8F58D161Q28251918-2C191E43-8A9C-4E60-B480-8EF669C4C1DDQ28265135-D37B4D69-606F-4B89-9795-E8F53E976DADQ28817237-51DF50AD-CCB7-48D5-A278-0B8709B87061Q30499035-AD3E8BDD-FAD8-494E-8683-E4212248FA17Q30995537-935C7C62-4977-4B3E-BDD9-5277C97D51D2Q31107208-7E2CB9CF-06F7-4E7C-9001-E4C020F03D33Q31149548-C09FD693-B1D0-449F-A537-070A5938492DQ33204708-F17181AD-2B21-4E56-BE20-09467971BBDDQ33276361-EE05231B-9F90-4267-AA44-A073D87F2C90Q33280751-D0A43814-701D-49F4-8021-046CB223B125Q33692631-88DE299B-94A3-48DA-9A8D-A7070C660713Q33841393-C38396A3-951C-4062-86DE-7F792CAC6758Q34132092-50B254D9-807D-48C2-B88D-51E65E8E255CQ34996913-4D19016E-CFD5-4036-9074-7FF3FF115526Q35148271-BCDC75D2-0B8E-4B6A-9B74-AF62F03FCF29Q35611149-B78D82C3-ECC3-47FE-BE50-0901038F57E7Q35733844-46420278-6659-49F2-81E7-FE9C1548A741Q35952497-D17C6EE7-0622-4E08-8441-427DC92D457AQ35986057-DE3CE9FA-72A3-4D71-978D-69115E57B1A9Q38781599-897D0A19-6965-4074-A9D9-14E045B1DBA4Q39862246-94EC49A8-177C-401C-BBEE-2228BCFC4AA4Q47673275-906057E5-ED87-4E52-AE8E-2792056E34E7Q52301108-1868D91A-389E-40A4-9A40-CA8E7BACBA3EQ56879442-50880E59-22CC-43FE-9EF5-3FA72D8BB0AEQ57117585-D4A8C41E-CEEA-4F44-834B-57CAA60E2D5AQ59387585-B0B73727-DB01-41FC-B048-C5DCDBD2EB26Q61940998-CD6DC983-D4EC-4D57-A57E-6B1A055EEB8FQ61941006-CAD28CC0-2F01-4E53-85F5-192712460774Q64091062-D94A6919-1453-4DF5-AB1D-BF26DA2FF0B6Q73018771-5D68801C-7A06-425D-A134-0FC2E3F0D62AQ91638470-85D02485-ADCB-4F13-8297-AEF5D7D8A144Q92323541-E5A6ACFD-A5CA-4213-A651-6723DA8EDC75
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Marion Leclerc
@ast
Marion Leclerc
@en
Marion Leclerc
@es
Marion Leclerc
@nl
Marion Leclerc
@sl
type
label
Marion Leclerc
@ast
Marion Leclerc
@en
Marion Leclerc
@es
Marion Leclerc
@nl
Marion Leclerc
@sl
prefLabel
Marion Leclerc
@ast
Marion Leclerc
@en
Marion Leclerc
@es
Marion Leclerc
@nl
Marion Leclerc
@sl
P106
P1153
56208462900
P21
P31
P496
0000-0001-8684-2847