about
Regulation of IRSp53-dependent filopodial dynamics by antagonism between 14-3-3 binding and SH3-mediated localization.T1R3 and gustducin in gut sense sugars to regulate expression of Na+-glucose cotransporter 1Sweet taste receptors in rat small intestine stimulate glucose absorption through apical GLUT2Oral glucose intake inhibits hypothalamic neuronal activity more effectively than glucose infusion.Glucose-dependent insulinotropic polypeptide (GIP) stimulates transepithelial glucose transport.Rapid upregulation of sodium-glucose transporter SGLT1 in response to intestinal sweet taste stimulation.Sodium/glucose cotransporter-1, sweet receptor, and disaccharidase expression in the intestine of the domestic dog and cat: two species of different dietary habit.Sweet taste signaling in the gutDexamethasone sensitizes the neonatal intestine to fructose induction of intestinal fructose transporter (Slc2A5) function.Behavioral Evidence for More than One Taste Signaling Pathway for Sugars in RatsSensing of amino acids by the gut-expressed taste receptor T1R1-T1R3 stimulates CCK secretion.A Drosophila orphan G protein-coupled receptor BOSS functions as a glucose-responding receptor: loss of boss causes abnormal energy metabolism.Timing and Duration of Drug Exposure Affects Outcomes of a Drug-Nutrient Interaction During Ontogeny.Training the Gut for Athletes.Sweet-taste receptors, low-energy sweeteners, glucose absorption and insulin release.Glucose sensing and signalling; regulation of intestinal glucose transport.Sensing via intestinal sweet taste pathways.What Does Diabetes "Taste" Like?Pigs that are divergent in feed efficiency, differ in intestinal enzyme and nutrient transporter gene expression, nutrient digestibility and microbial activity.Glucose-induced regulation of NHEs activity and SGLTs expression involves the PKA signaling pathway.Increased SGLT1 expression in salivary gland ductal cells correlates with hyposalivation in diabetic and hypertensive ratsExpression of Na+/glucose co-transporter 1 (SGLT1) is enhanced by supplementation of the diet of weaning piglets with artificial sweeteners.Modulation of intestinal glucose transport in response to reduced nitrogen supply in young goats.Glucagon-like peptide-2 induces intestinal adaptation in parenterally fed rats with short bowel syndrome.Fructose-responsive genes in the small intestine of neonatal rats.Apical sodium-glucose co-transport can be regulated by blood-borne glucose in the ruminal epithelium of sheep (Ovis aries, Merino breed).Lumenal adenosine and AMP rapidly increase glucose transport by intact small intestine.Role of nutrient-sensing taste 1 receptor (T1R) family members in gastrointestinal chemosensing.Age-related energy values of bakery meal for broiler chickens determined using the regression method.Glucagon-Like Peptide-2 and the Enteric Nervous System Are Components of Cell-Cell Communication Pathway Regulating Intestinal Na/Glucose Co-transport
P2860
Q24319871-6BBBA455-97AF-4321-8C49-7CDA4CFE2BF1Q24682744-A35B30BB-BD0A-440E-A622-623BF1417002Q28574811-E0FC8877-C098-4F9B-97EF-0BFD3EA95112Q31115560-4E7F8B53-A078-408E-B5AE-58054F5533F6Q33362368-3B5ADD66-DFD6-4657-9E96-C5FC9AF9E40BQ34010026-51090991-C280-4035-8FB0-1110A8AABFE7Q34502127-2CC40A03-DFD9-4E2D-B694-A7B0CBE94169Q36002470-A6439243-417B-4F9D-AD02-266222B0727DQ36372601-37F1C6B7-61F0-49FF-803A-051E79CC0908Q36431966-BE8B57C8-F94A-4005-BEAD-5939272BBDD1Q36593122-8027B789-9712-4373-AFA1-0ABA8BA823B6Q36926884-4FC64FEC-2A0A-411C-A8AB-465D7B08FD79Q37666701-F50A0796-F170-4494-B986-EEBC6D87ACE3Q37727513-95F75878-98B9-4282-97B6-4D70269E14C6Q37771443-8592FC97-1D08-40D9-AEE3-17EC776084B6Q37859449-7C06B03E-C0C2-40E2-8A45-1D7BCF3AF37CQ37868939-EB6D4F93-19D2-46F4-BC90-8A4E830C6E36Q38810068-2C229479-A7E1-4034-87C6-9A9EF53A01E9Q38810621-0FC8F7EB-0ECF-493A-8344-C842DA67C327Q39622640-80C4BEDF-6620-4EF2-90EF-A67238564431Q39825845-48E81498-B483-4BAB-A154-F2056F80C325Q43118700-EC3C766E-453F-44D1-B78E-4005C5C63D03Q44142715-9FB8DA97-C36D-4C13-8517-A6BBBE78B18BQ44764155-1C846639-72CB-4AF5-9297-E1EBA5BAF82AQ44901291-81E4AE23-7991-4F8E-8211-19DD2531ABB5Q45143874-D326A143-1766-4B5D-A004-C0B23400B3BFQ46601631-3F269572-221E-4846-AD4A-4D30FB777730Q46952441-3067075A-E8E0-4AB9-A85D-E823CF54EEDAQ53628404-BC8BE4C6-CF78-47AC-8FF6-9331ED02CC2EQ58707940-A4FD3FA3-4936-4A77-9B3F-48D77CF6AF2D
P2860
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Glucose sensing in the intestinal epithelium.
@en
Glucose sensing in the intestinal epithelium.
@nl
type
label
Glucose sensing in the intestinal epithelium.
@en
Glucose sensing in the intestinal epithelium.
@nl
prefLabel
Glucose sensing in the intestinal epithelium.
@en
Glucose sensing in the intestinal epithelium.
@nl
P2093
P2860
P1433
P1476
Glucose sensing in the intestinal epithelium.
@en
P2093
Soraya P Shirazi-Beechey
Steven Vayro
Timothy P King
P2860
P304
P356
10.1046/J.1432-1033.2003.03721.X
P407
P577
2003-08-01T00:00:00Z