Le Gall, Maude, 19..-....
Maude Le Gall researcher
Le Gall, Maude
VIAF ID: 289560616 (Personal)
Permalink: http://viaf.org/viaf/289560616
Preferred Forms
- 100 1 _ ‡a Le Gall, Maude
- 100 1 _ ‡a Le Gall, Maude, ‡d 19..-....
- 100 0 _ ‡a Maude Le Gall ‡c researcher
4xx's: Alternate Name Forms (1)
Works
Title | Sources |
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ABCB6 is dispensable for erythropoiesis and specifies the new blood group system Langereis | |
Adhesion-dependent control of Akt/protein kinase B occurs at multiple levels. | |
An anchorage-dependent signal distinct from p42/44 MAP kinase activation is required for cell cycle progression | |
Assessement of intestinal permeability in human obesity. | |
Bariatric surgery induces a new gastric mucosa phenotype with increased functional glucagon-like peptide-1 expressing cells | |
C3P3-G1: first generation of a eukaryotic artificial cytoplasmic expression system | |
Carbohydrate intake. | |
Contrôle de l'homéostasie de la barrière épithéliale intestinale par la protéine kinase activée par l'AMP (AMPK) | |
Disruption of SMIM1 causes the Vel- blood type. | |
Effect of different bariatric surgeries on dietary protein bioavailability in rats | |
Enhanced Ghrelin Levels and Hypothalamic Orexigenic AgRP and NPY Neuropeptide Expression in Models of Jejuno-Colonic Short Bowel Syndrome | |
Etude de la perméabilité intestinale au cours de l'obésité humaine | |
Evaluation de l’impact métabolique et nutritionnelle dans une surnutrition contrôlée chez les maigreurs constitutionnelles. | |
Gastric bypass specifically impairs liver parameters as compared with sleeve gastrectomy, independently of evolution of metabolic disorders | |
GLUT2 accumulation in enterocyte apical and intracellular membranes: a study in morbidly obese human subjects and ob/ob and high fat-fed mice | |
GLUT2 mutations, translocation, and receptor function in diet sugar managing | |
Green tea decoction improves glucose tolerance and reduces weight gain of rats fed normal and high-fat diet | |
Identification of two binding regions for the suppressor of hairless protein within the intracellular domain of Drosophila notch. | |
Impact of commensal and probiotic strains of Escherichia coli on host's pathophysiology. | |
Impaired Aryl Hydrocarbon Receptor Ligand Production by the Gut Microbiota Is a Key Factor in Metabolic Syndrome | |
Implication des troubles métaboliques maternels sur la programmation fœtale des fonctions métabolique hépatique et vasculaire de la descendance | |
Inhibition of monoacylglycerol lipase, an anti-inflammatory and antifibrogenic strategy in the liver | |
Insulin internalizes GLUT2 in the enterocytes of healthy but not insulin-resistant mice. | |
Intestinal Adaptations after Bariatric Surgery: Consequences on Glucose Homeostasis | |
Intestinal adaptations following bariatric surgery: towards the identification of new pharmacological targets for obesity-related metabolic diseases. | |
Intestinal deletion of leptin signaling alters activity of nutrient transporters and delayed the onset of obesity in mice | |
Intestinal glucose-dependent expression of glucose-6-phosphatase: involvement of the aryl receptor nuclear translocator transcription factor. | |
Intestinal invalidation of the glucose transporter GLUT2 delays tissue distribution of glucose and reveals an unexpected role in gut homeostasis | |
Intestinal plasticity in response to nutrition and gastrointestinal surgery | |
Invalidation et activation du transcepteur des sucres GLUT2 : impacts sur la régulation de la prise alimentaire et la sécrétion d'insuline | |
Involvement of maternal metabolic disorders in fetal programming of metabolic, hepatic and vascular functions in offspring.. | |
Lipid-rich diet enhances L-cell density in obese subjects and in mice through improved L-cell differentiation | |
Loss of sugar detection by GLUT2 affects glucose homeostasis in mice | |
Modélisation de l’absorption intestinale du glucose avec le test oral au D-Xylose pour l’exploration de sa contribution sur la réponse glycémique postprandiale : études chez le Porc et l’Homme. | |
Mutations in SLC2A2 gene reveal hGLUT2 function in pancreatic β cell development | |
Neuromedin U is a gut peptide that alters oral glucose tolerance by delaying gastric emptying via direct contraction of the pylorus and vagal-dependent mechanisms | |
Notch steers Drosophila ISNb motor axons by regulating the Abl signaling pathway | |
Obesity-induced pancreatopathy in rats is reversible after bariatric surgery | |
One-anastomosis Gastric Bypass (OAGB) in Rats | |
Overexpression of gastric leptin precedes adipocyte leptin during high-fat diet and is linked to 5HT-containing enterochromaffin cells. | |
Phenotyping and understanding constitutional thinness : demonstrating and understanding specific energy metabolism through overfeeding study | |
Plasticité gastrointestinale et conséquences physiologiques : leçons de la chirurgie bariatrique. | |
Régulation et fonctions du facteur de transcription ChREBP dans l'épithélium intestinal | |
Remodeling of the residual gastric mucosa after roux-en-y gastric bypass or vertical sleeve gastrectomy in diet-induced obese rats | |
Reply | |
Rôle de deux entéro-hormones atypiques : la Neuromédine U et le glucagon extrapancréatique, dans l'homéostasie glucidique | |
Rôle de la nutrition entérale exclusive dans le maintien de l'homéostasie intestinale dans la maladie de Crohn | |
Rôle des anses intestinales dans les effets métaboliques du gastric bypass : apport du modèle porcin | |
Rôle du CD36 de l'épithélium intestinal dans la mise en place de l'obésité et de l'endotoxémie induites par la surconsommation de lipides | |
The role of dietary sugars in intestinal homeostasis and microbiota composition | |
The role of GLUT2 in dietary sugar handling | |
Role of intestinal epithelial CD36 in obesity and endotoxemia driven by lipid absorption. | |
Roux-en-Y Gastric-Bypass and sleeve gastrectomy induces specific shifts of the gut microbiota without altering the metabolism of bile acids in the intestinal lumen. | |
Sugar detection by GLUT2 impacts on mouse food intake and human insulin secretion. | |
Sugar sensing by enterocytes combines polarity, membrane bound detectors and sugar metabolism. | |
প্রত্যুত্তর |