| scholarly article | Q13442814 |
| P50 | author | Susanne Klaus | Q40818248 |
| Michael Blaut | Q54344505 | ||
| P433 | issue | 209 | |
| P921 | main subject | obesity | Q12174 |
| P304 | page(s) | 251-273 | |
| P577 | publication date | 2012-01-01 | |
| P1433 | published in | Handbook of experimental pharmacology | Q26841924 |
| P1476 | title | Intestinal microbiota and obesity |
| Q28537822 | A rosemary extract rich in carnosic acid selectively modulates caecum microbiota and inhibits β-glucosidase activity, altering fiber and short chain fatty acids fecal excretion in lean and obese female rats |
| Q34524233 | Analysis of the human intestinal microbiota from 92 volunteers after ingestion of identical meals |
| Q89737539 | Changes in Intestinal Microbiota Are Associated with Islet Function in a Mouse Model of Dietary Vitamin A Deficiency |
| Q33645213 | Circadian disorganization alters intestinal microbiota |
| Q35742114 | Comparison of the gut microbiota composition between obese and non-obese individuals in a Japanese population, as analyzed by terminal restriction fragment length polymorphism and next-generation sequencing |
| Q34961257 | Docosahexaenoic acid, inflammation, and bacterial dysbiosis in relation to periodontal disease, inflammatory bowel disease, and the metabolic syndrome |
| Q35780928 | Does the buck stop with the bugs?: an overview of microbial dysbiosis in rheumatoid arthritis |
| Q55072368 | Effects of the Brown Seaweed Laminaria japonica Supplementation on Serum Concentrations of IgG, Triglycerides, and Cholesterol, and Intestinal Microbiota Composition in Rats. |
| Q38317453 | Genetically obese mice do not show increased gut permeability or faecal bile acid hydrophobicity. |
| Q35888730 | Gut Microbiota and Metabolic Endotoxemia in Young Obese Mexican Subjects |
| Q28066301 | Gut Microbiota: A Contributing Factor to Obesity |
| Q98726635 | Gut microbiota and diabetes: From correlation to causality and mechanism |
| Q44105668 | Higher level of faecal SCFA in women correlates with metabolic syndrome risk factors |
| Q30831616 | Identification of Human Intestinal Microbiota of 92 Men by Data Mining for 5 Characteristics, i.e., Age, BMI, Smoking Habit, Cessation Period of Previous Smokers and Drinking Habit |
| Q46340787 | Impact of dietary fat on gut microbiota and low-grade systemic inflammation: mechanisms and clinical implications on obesity |
| Q38077628 | Linking the gut microbiota to human health |
| Q35728214 | Non-alcoholic fatty liver disease, diet and gut microbiota. |
| Q26824738 | Nutritional modulation of insulin resistance |
| Q37396741 | Postprandial serum endotoxin in healthy humans is modulated by dietary fat in a randomized, controlled, cross-over study |
| Q42069466 | Potent suppression of arginase 1 expression in murine macrophages by low dose endotoxin |
| Q36903126 | Sepsis in preterm infants causes alterations in mucosal gene expression and microbiota profiles compared to non-septic twins |
| Q33858968 | Significance of Microbiota in Obesity and Metabolic Diseases and the Modulatory Potential by Medicinal Plant and Food Ingredients |
| Q48328173 | Starch Structure Influences Its Digestibility: A Review |
| Q26750612 | The Intestinal Microbiota in Metabolic Disease |
| Q38036910 | The effects of food components on hormonal signalling in gastrointestinal enteroendocrine cells. |
| Q38040322 | The role of the gut microbiota in nutrition and health. |
| Q53747315 | [Research advances in association between childhood obesity and gut microbiota]. |
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