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Medicinal Plants Qua Glucagon-Like Peptide-1 Secretagogue via Intestinal Nutrient SensorsInfluence of sucrose ingestion on brainstem and hypothalamic intrinsic oscillations in lean and obese womenThe common hepatic branch of the vagus is not required to mediate the glycemic and food intake suppressive effects of glucagon-like-peptide-1.Role of gut nutrient sensing in stimulating appetite and conditioning food preferences.Peripheral neural targets in obesityThe flavanone homoeriodictyol increases SGLT-1-mediated glucose uptake but decreases serotonin release in differentiated Caco-2 cells.The aglycone of ginsenoside Rg3 enables glucagon-like peptide-1 secretion in enteroendocrine cells and alleviates hyperglycemia in type 2 diabetic miceNicotinic regulation of energy homeostasis.Catecholamines Facilitate Fuel Expenditure and Protect Against Obesity via a Novel Network of the Gut-Brain Axis in Transcription Factor Skn-1-deficient Mice.How sweet it is: intestinal sweet taste receptors in type 2 diabetesDisordered control of intestinal sweet taste receptor expression and glucose absorption in type 2 diabetesGPR40 and GPR120 fatty acid sensors are critical for postoral but not oral mediation of fat preferences in the mouse.Nerveless and gutsy: intestinal nutrient sensing from invertebrates to humans.The enteric nervous system and neurogastroenterology.Obesity and appetite controlHuman biology of taste.Glucose absorption in small intestinal diseases.Effects of Roux-en-Y gastric bypass on energy and glucose homeostasis are preserved in two mouse models of functional glucagon-like peptide-1 deficiency.A High-Throughput Automated Microfluidic Platform for Calcium Imaging of Taste Sensing.Integrated Neural and Endocrine Control of Gastrointestinal Function.Grape-seed procyanidins modulate cellular membrane potential and nutrient-induced GLP-1 secretion in STC-1 cells.Ghrelin, CCK, GLP-1, and PYY(3-36): Secretory Controls and Physiological Roles in Eating and Glycemia in Health, Obesity, and After RYGB.Molecules implicated in glucose homeostasis are differentially expressed in the trachea of lean and obese Zucker rats.Diet and gastric neurons.Sugars, Sweet Taste Receptors, and Brain Responses.Stochastic phase-change neurons.Effect of chyme viscosity and nutrient feedback mechanism on gastric emptying.The gut as a sensory organ.Serotonin availability in rat colon is reduced during a Western diet model of obesity.Phase-change devices: Crystal-clear neuronal computing.Motility changes induced by intraluminal FeSO4 in guinea pig jejunum.Sweet taste receptor inhibitors: Potential treatment for equine insulin dysregulation.
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Q26770832-E7A1BDF6-EFB2-4BB3-B087-DC2A570BB4A1Q33962013-A9712D00-46C2-47A7-BE7F-9980FCEBC772Q35543398-6DE3C9A4-FA64-4523-B18C-4A471A6A8D1CQ35994290-A7C92CF2-680A-4122-8C5F-CCDBDF736035Q36166645-A80DA1CE-291F-48DD-96E5-222C50A2432DQ36278481-775C4FF6-C160-44C3-8D9C-14A5D52D1F52Q36379486-DDE7EB9D-C3CE-40C7-8751-92FE6D355D3FQ36727840-771D2EF1-8862-429A-A7B4-47C703E5D45EQ37034803-2309BD86-C9D8-4D4B-929B-1E1CF827E69DQ37193318-A585ACAF-E778-4339-97B3-690D0481F7EAQ37193390-E69F61EE-4D40-418F-A5A7-243B45437F9FQ37440987-48C9B41E-12D6-4DA4-8081-8EFAE079EE7AQ37976164-879AC5A3-6730-4F63-9641-98B9040752CCQ37990818-DE866375-3AD6-4243-912B-81D055057991Q38035293-4E6A7B44-CFDC-44DE-8384-D87607918B91Q38116398-76314BEA-1A7C-40B2-97BD-11AB397AB46DQ38185705-11D0E9D5-B6C2-4135-9A77-ADAE4807D246Q38270358-712C95EA-16E6-41C5-80A9-DF48FDADAEA6Q38758861-E365AF60-332A-4F55-AB04-1F6AA4DC3DECQ38886433-3564DEDB-C46C-4BC8-B9C3-76566C7BCB0EQ39039552-5CB29627-526D-46C3-B334-D3991928A2CCQ39047697-6E46EA2D-B2F1-4BDE-9612-EA717943BEE2Q39233644-755BA385-1C70-4BA3-99E0-D9CB9F6F6556Q39383435-F585C79B-1F5E-4E33-B9C2-3C293A7A2A43Q39411595-70948697-2477-48A4-9291-223EBBCA89F4Q39763572-58D26FDA-6790-4E05-AE50-C2B3859BD36BQ43240013-ABA6DB78-E67D-4FE6-8333-4D6E172A70D0Q45894561-1C22A059-B503-467A-AB24-08299E539DC7Q46550804-BE2D954E-AB56-4D8A-A814-2C26A0E1AEA8Q51330625-E9D388D7-1BF9-4152-95EC-1C1BEFD20D2BQ54453347-672D9B6D-CD06-4A9B-BDE3-2A02ED2C7BE0Q55457762-962F44F8-C685-4078-9566-291531EE43D7
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 03 March 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Sensing via intestinal sweet taste pathways.
@en
Sensing via intestinal sweet taste pathways.
@nl
type
label
Sensing via intestinal sweet taste pathways.
@en
Sensing via intestinal sweet taste pathways.
@nl
prefLabel
Sensing via intestinal sweet taste pathways.
@en
Sensing via intestinal sweet taste pathways.
@nl
P2860
P356
P1476
Sensing via intestinal sweet taste pathways.
@en
P2093
Richard L Young
P2860
P356
10.3389/FNINS.2011.00023
P577
2011-03-03T00:00:00Z