Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
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Roles of the intestinal microbiota in pathogen protection.Rice Bran and Probiotics Alter the Porcine Large Intestine and Serum Metabolomes for Protection against Human Rotavirus DiarrheaInflammation, metaflammation and immunometabolic disorders.The enteric nervous system promotes intestinal health by constraining microbiota compositionDifferential Effects of Environmental and Genetic Factors on T and B Cell Immune Traits.Gastrointestinal Microbiome Dysbiosis in Infant Mice Alters Peripheral CD8+ T Cell Receptor Signaling.Fructose diet alleviates acetaminophen-induced hepatotoxicity in mice.Integrated Analysis of Biopsies from Inflammatory Bowel Disease Patients Identifies SAA1 as a Link Between Mucosal Microbes with TH17 and TH22 Cells.Living in an adaptive world: Genomic dissection of the genus Homo and its immune response.The Gut, Its Microbiome, and Hypertension.Effects of Non-Starch Polysaccharides on Inflammatory Bowel Disease.Regulation of inflammation by microbiota interactions with the host.Supplemental thymol and carvacrol increases ileum Lactobacillus population and reduces effect of necrotic enteritis caused by Clostridium perfringes in chickens.A benign helminth alters the host immune system and the gut microbiota in a rat model system.Gut microbiota in 2016: A banner year for gut microbiota research.Fusobacterium nucleatum Promotes Chemoresistance to Colorectal Cancer by Modulating Autophagy.Genistein prevention of hyperglycemia and improvement of glucose tolerance in adult non-obese diabetic mice are associated with alterations of gut microbiome and immune homeostasis.The Role of the Skin and Gut Microbiome in Psoriatic Disease.Intestinal epithelium, intraepithelial lymphocytes and the gut microbiota - Key players in the pathogenesis of celiac disease.Complete Genome Sequence of Faecalibacterium prausnitzii Isolated from the Gut of a Healthy Indian Adult.Experimental design and quantitative analysis of microbial community multiomics.Context-specific effects of genetic variants associated with autoimmune disease.Functional Classification of the Gut Microbiota: The Key to Cracking the Microbiota Composition Code: Functional classifications of the gut microbiota reveal previously hidden contributions of indigenous gut bacteria to human health and disease.A catch-22: Interleukin-22 and cancer.Spatiotemporal expression of MYD88 gene in pigs from birth to adulthood.Vancomycin and ceftriaxone can damage intestinal microbiota and affect the development of the intestinal tract and immune system to different degrees in neonatal mice.Intestinal inflammation induced by oral bacteria.Computer-guided design of optimal microbial consortia for immune system modulation.No effects without causes: the Iron Dysregulation and Dormant Microbes hypothesis for chronic, inflammatory diseases.Effect of Vegan Fecal Microbiota Transplantation on Carnitine- and Choline-Derived Trimethylamine-N-Oxide Production and Vascular Inflammation in Patients With Metabolic Syndrome.Pharmacomicrobiomics: a novel route towards personalized medicine?Gut Microbiota in Multiple Sclerosis and Experimental Autoimmune Encephalomyelitis: Current Applications and Future Perspectives.Association between Fusobacterium nucleatum and colorectal cancer: Progress and future directions.The Regulation of Inflammation by Innate and Adaptive Lymphocytes.Predictive Modeling of Microbiome Data Using a Phylogeny-Regularized Generalized Linear Mixed Model.YAMP: a containerized workflow enabling reproducibility in metagenomics research.Immune System Dysregulation During Spaceflight: Potential Countermeasures for Deep Space Exploration Missions.Contemporary analysis of functional immune recovery to opportunistic and vaccine-preventable infections after allogeneic haemopoietic stem cell transplantationImmune Functional Assays, From Custom to Standardized Tests for Precision MedicineChanges in gut microbiota and plasma inflammatory factors across the stages of colorectal tumorigenesis: a case-control study
P2860
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P2860
Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
2016年论文
@zh
2016年论文
@zh-cn
name
Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
@ast
Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
@en
type
label
Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
@ast
Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
@en
prefLabel
Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
@ast
Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
@en
P2093
P2860
P50
P1433
P1476
Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.
@en
P2093
Alexandra Zhernakova
Eric A Franzosa
Hera Vlamakis
Leo A B Joosten
Liesbeth Jacobs
Marije Oosting
Mihai G Netea
Ramnik J Xavier
Sanne P Smeekens
Trees Jansen
P2860
P304
1125-1136.e8
P356
10.1016/J.CELL.2016.10.020
P407
P50
P577
2016-11-01T00:00:00Z