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The TAS1R3 gene encodes the human homolog of mouse Sac, a major determinant of differences between sweet-sensitive and -insensitive mouse strains in their responsiveness to sucrose, saccharine, and other sweeteners (Max et al., 2001. Additionally we are shipping Taste Receptor, Type 1, Member 3 Antibodies (100) and Taste Receptor, Type 1, Member 3 Proteins (4) and many more products for this protein.
Medaka T1R1 (show TAS1R1 ELISA Kits) and T1R3 show the highest degrees of identity to mammalian T1R1 (show TAS1R1 ELISA Kits) and T1R3, respectively.
discovery of a gene regulatory network related to the porcine umami taste receptor TAS1R1 (show TAS1R1 ELISA Kits)/TAS1R3
The gene was shown to reside on swine chromosome 6q22-->q23, from which three types of mRNAs were generated. High expressions of TAS1R3 were revealed in tongue, kidney, and testis
TAS1R3 gene rs307355 polymorphism found independent risk factor for dental caries experience by logistic regression & increased risk of caries. Moderate caries (4-7 caries) found to be associated w/TAS1R3 rs307355 heterozygous genotype
T1R3 gene expression in the tongue is suppressed by chemotherapy.
The transcripts of TAS1R3 and UCN2 (show UTS2 ELISA Kits) in peripheral blood cells may be considered potential biomarkers of consumption of sugary and fatty food, respectively, to complement data of food-intake questionnaires.
human and mouse membrane trafficking systems for sweet taste receptors T1r2 (show TAS1R2 ELISA Kits) and T1r3
A complex molecular mechanism involving changes in the properties of both the orthosteric and non-orthosteric sites of T1R1 (show TAS1R1 ELISA Kits) underlies the determination of ligand specificity in mammalian T1R1 (show TAS1R1 ELISA Kits)/T1R3.
effects of artificial sweeteners on adipose tissue may be largely independent of the classical sweet taste receptors, T1R2 (show TAS1R2 ELISA Kits) and T1R3
Five amino acid residues in cysteine-rich domain of human T1R3 were involved in the response for sweet-tasting protein, thaumatin
T1R3 is a receptor responsible for the detection of calcium by taste.
Overexpressed the human N-terminal domain of T1R3 in E. coli and found that the refolded protein behaves as a dimer; showed that hT1R3-NTD is functional and capable of binding sucralose with an affinity in the millimolar range.
Data show that that Tas1r1 (show TAS1R1 ELISA Kits) and Tas1r3 are expressed in murine and human spermatozoa.
T1R3 and alpha-gustducin (show GNAT3 ELISA Kits) exhibited a stage-dependent expression pattern during mouse development, and a cell-specific pattern during the spermatogenic cycle.
Low concentration of endogenous GC is necessary and sufficient for induction of T1R3 expression. Higher concentrations may inhibit such induction. This inhibitory effect may be due, at least in part, to a direct action of GC on taste cells.
T1R1 (show TAS1R1 ELISA Kits)/T1R3 have roles in regulating ERK1/2 (show MAPK1/3 ELISA Kits) and mTORC1 in MIN6 cells
Mice possess two taste transduction pathways for sugars. One mediates behavioral attraction to sugars and requires an intact T1r2 (show TAS1R2 ELISA Kits)+T1r3. The other mediates cephalic phase insulin (show INS ELISA Kits) release but does not require an intact T1r2 (show TAS1R2 ELISA Kits)+T1r3.
Taken together, our study raises the possibility that MyoD (show MYOD1 ELISA Kits) and Myogenin (show MYOG ELISA Kits) might control skeletal muscle metabolism and homeostasis through the regulation of T1R3 promoter activity.
Mice lacking the Tas1r3 taste receptor gene display impaired glucose metabolism.
Involvement of multiple taste receptors in umami taste: analysis of gustatory nerve responses in metabotropic glutamate receptor 4 (show GRM4 ELISA Kits) knockout mice
T1R3 is expressed mainly in beta-cells and the expression levels are different depending upon the nutritional and metabolic conditions.
In the Tas1r3-/- strain, in addition to disappearance of taste preference for sucrose, glucose tolerance is also substantially reduced, and insulin (show INS ELISA Kits) resistance is observed.
The TAS1R3 gene encodes the human homolog of mouse Sac, a major determinant of differences between sweet-sensitive and -insensitive mouse strains in their responsiveness to sucrose, saccharine, and other sweeteners (Max et al., 2001
taste receptor type 1 member 3
, taste receptor, type 1, member 3
, sweet taste receptor T1R3
, saccharin preference protein
, taste receptor T1R3