| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/978-3-642-14426-4_7 |
| P953 | full work available at URL | http://link.springer.com/content/pdf/10.1007/978-3-642-14426-4_7 |
| P698 | PubMed publication ID | 20865373 |
| P2093 | author name string | Xueying Ren | |
| Ivan E. de Araujo | |||
| Jozélia G. Ferreira | |||
| P2860 | cites work | American Journal of Physiology | Q2160146 |
| Ggamma13 colocalizes with gustducin in taste receptor cells and mediates IP3 responses to bitter denatonium | Q22010827 | ||
| A novel family of mammalian taste receptors | Q22253877 | ||
| T2Rs function as bitter taste receptors | Q22253879 | ||
| The cells and peripheral representation of sodium taste in mice | Q22337242 | ||
| Intracellular Ca2+ and the phospholipid PIP2 regulate the taste transduction ion channel TRPM5 | Q24301233 | ||
| The molecular basis of individual differences in phenylthiocarbamide and propylthiouracil bitterness perception | Q24540285 | ||
| Ghrelin promotes and protects nigrostriatal dopamine function via a UCP2-dependent mitochondrial mechanism | Q24613339 | ||
| The cells and logic for mammalian sour taste detection | Q24675916 | ||
| T1R3 and gustducin in gut sense sugars to regulate expression of Na+-glucose cotransporter 1 | Q24682744 | ||
| Coding of sweet, bitter, and umami tastes: different receptor cells sharing similar signaling pathways | Q28208630 | ||
| The receptors and coding logic for bitter taste | Q28239079 | ||
| Leptin receptor signaling in midbrain dopamine neurons regulates feeding | Q28566114 | ||
| Transient receptor potential family members PKD1L3 and PKD2L1 form a candidate sour taste receptor | Q28592962 | ||
| Mammalian sweet taste receptors | Q29614809 | ||
| Ghrelin induces adiposity in rodents | Q29619226 | ||
| A candidate taste receptor gene near a sweet taste locus | Q33943908 | ||
| A transient receptor potential channel expressed in taste receptor cells | Q33961827 | ||
| Taste as a factor in the management of nutrition | Q34071844 | ||
| Taste-signaling proteins are coexpressed in solitary intestinal epithelial cells. | Q50712424 | ||
| Taste pathways in rat brainstem. | Q51121059 | ||
| Diabetic rats prefer glucose-paired flavors over fructose-paired flavors. | Q52196361 | ||
| Abdominal vagotomy does not block carbohydrate-conditioned flavor preferences in rats. | Q52200451 | ||
| The ontogeny of feeding in rats: IV. Taste development as measured by intake and behavioral responses to oral infusions of sucrose and quinine | Q52294034 | ||
| Gustatory responsiveness of fibers in the hamster glossopharyngeal nerve. | Q52426552 | ||
| Oral and intragastric feeding in vagotomized rats | Q53003110 | ||
| Two members of the TRPP family of ion channels, Pkd1l3 and Pkd2l1, are co-expressed in a subset of taste receptor cells. | Q54594881 | ||
| Differential expression of RNA and protein of the three pore-forming subunits of the amiloride-sensitive epithelial sodium channel in taste buds of the rat | Q58034892 | ||
| Effects of SOA and saccharin adulteration on Polycose preference in rats | Q69160558 | ||
| Sucrose and polysaccharide induced obesity in the rat | Q70791599 | ||
| Central projections of gustatory nerves in the rat | Q72725375 | ||
| The receptors for mammalian sweet and umami taste | Q34278862 | ||
| Gustducin is a taste-cell-specific G protein closely related to the transducins | Q34440920 | ||
| Reward system and addiction: what dopamine does and doesn't do. | Q34591979 | ||
| Activity-dependent regulation of energy metabolism by astrocytes: an update | Q34656867 | ||
| Epithelial sodium channel/degenerin family of ion channels: a variety of functions for a shared structure. | Q34711250 | ||
| Food reward in the absence of taste receptor signaling | Q34764662 | ||
| Gustatory reward and the nucleus accumbens | Q35043543 | ||
| Insulin, food intake, and reward | Q35120252 | ||
| Role of brain dopamine in food reward and reinforcement | Q35140226 | ||
| Molecular mechanisms of taste-recognition memory | Q35672133 | ||
| Neural systems recruited by drug- and food-related cues: studies of gene activation in corticolimbic regions | Q36247673 | ||
| Brainstem circuits regulating gastric function | Q36387897 | ||
| The representation of taste quality in the mammalian nervous system | Q36411025 | ||
| Fat and carbohydrate preferences in mice: the contribution of alpha-gustducin and Trpm5 taste-signaling proteins | Q36644490 | ||
| Learned flavor preferences. The variable potency of post-oral nutrient reinforcers | Q36948258 | ||
| Umami responses in mouse taste cells indicate more than one receptor | Q37029265 | ||
| Role of olfaction in the conditioned sucrose preference of sweet-ageusic T1R3 knockout mice. | Q37350048 | ||
| Taste receptor-like cells in the rat gut identified by expression of alpha-gustducin | Q37535033 | ||
| Leptin regulation of the mesoaccumbens dopamine pathway. | Q38309525 | ||
| Pimozide decreases the positive reinforcing effect of sham fed sucrose in the rat. | Q41361727 | ||
| The pontine taste area in the rat | Q41866527 | ||
| Nutrient selection in the absence of taste receptor signaling. | Q43037021 | ||
| Sense of taste in a new world monkey, the common marmoset: recordings from the chorda tympani and glossopharyngeal nerves | Q44090748 | ||
| Expression of receptors for insulin and leptin in the ventral tegmental area/substantia nigra (VTA/SN) of the rat. | Q44306255 | ||
| Making sense with TRP channels: store-operated calcium entry and the ion channel Trpm5 in taste receptor cells | Q44452828 | ||
| Oral sucrose stimulation increases accumbens dopamine in the rat. | Q44559097 | ||
| Feeding-induced dopamine release in dorsal striatum correlates with meal pleasantness ratings in healthy human volunteers | Q44568891 | ||
| Modulation of parabrachial taste neurons by electrical and chemical stimulation of the lateral hypothalamus and amygdala | Q45105869 | ||
| Signal transduction of umami taste: insights from knockout mice. | Q45287702 | ||
| Taste pathways that mediate accumbens dopamine release by sapid sucrose | Q46374019 | ||
| Activation of dopamine D1-like receptors in nucleus accumbens is critical for the acquisition, but not the expression, of nutrient-conditioned flavor preferences in rats | Q46705715 | ||
| A role for sweet taste: calorie predictive relations in energy regulation by rats | Q46735119 | ||
| Dysregulation of dopamine signaling in the dorsal striatum inhibits feeding | Q46754074 | ||
| Hyperphagia induced by GABAA receptor-mediated inhibition of the nucleus accumbens shell: dependence on intact neural output from the central amygdaloid region | Q46814053 | ||
| Food reward and cocaine increase extracellular dopamine in the nucleus accumbens as measured by microdialysis | Q48131514 | ||
| Hedonic reactivity to sucrose in rats: modification by pimozide | Q48289528 | ||
| Intraventricular insulin and leptin decrease sucrose self-administration in rats | Q48395687 | ||
| Taste pathways to hypothalamus and amygdala | Q48398736 | ||
| Distribution of insulin receptor substrate-2 in brain areas involved in energy homeostasis | Q48440141 | ||
| Projections of thalamic gustatory and lingual areas in the rat | Q48450629 | ||
| Ascending central gustatory pathways | Q48643719 | ||
| The effects of pimozide on the consumption of a palatable saccharin-glucose solution in the rat | Q49117475 | ||
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | dopamine | Q170304 |
| P304 | page(s) | 69-86 | |
| P577 | publication date | 2010-01-01 | |
| P1433 | published in | Results and problems in cell differentiation | Q26842363 |
| P1476 | title | Metabolic sensing in brain dopamine systems | |
| Metabolic Sensing in Brain Dopamine Systems | |||
| P478 | volume | 52 |
| Q30560222 | Advances in the diagnosis of anorexia nervosa and bulimia nervosa using brain imaging |
| Q39037982 | Age-Related Changes in Gustatory, Homeostatic, Reward, and Memory Processing of Sweet Taste in the Metabolic Syndrome: An fMRI Study |
| Q98184291 | Age-dependent effects of protein restriction on dopamine release |
| Q37465654 | Altered brain reward circuits in eating disorders: chicken or egg? |
| Q36301447 | Altered processing of sweet taste in the brain of diet soda drinkers |
| Q36100291 | Anorexia nervosa and obesity are associated with opposite brain reward response |
| Q39217375 | DRD2: Bridging the Genome and Ingestive Behavior. |
| Q38966757 | Electro-physiological changes in the brain induced by caffeine or glucose nasal spray |
| Q41937920 | Enantiomer-specific selection of amino acids |
| Q38546621 | Fuel not fun: Reinterpreting attenuated brain responses to reward in obesity |
| Q35864594 | Ghrelin signaling is not essential for sugar or fat conditioned flavor preferences in mice |
| Q35226636 | Ghrelin, appetite regulation, and food reward: interaction with chronic stress. |
| Q47848213 | Glucose utilization rates regulate intake levels of artificial sweeteners |
| Q37419681 | Hypothalamic melanin concentrating hormone neurons communicate the nutrient value of sugar |
| Q37082217 | Mechanisms for sweetness |
| Q37133432 | Neuroimaging the interaction of mind and metabolism in humans |
| Q36727840 | Nicotinic regulation of energy homeostasis |
| Q41870037 | Putting desire on a budget: dopamine and energy expenditure, reconciling reward and resources. |
| Q38370126 | Recent advances in neuroimaging to model eating disorder neurobiology. |
| Q34674976 | Reward mechanisms in obesity: new insights and future directions |
| Q35072761 | Striatal dopamine homeostasis is altered in mice following Roux-en-Y gastric bypass surgery. |
| Q35012275 | Sweet taste receptor signaling network: possible implication for cognitive functioning |
| Q36179678 | Taste uncoupled from nutrition fails to sustain the reinforcing properties of food. |
| Q38262800 | The Governor has a sweet tooth - mouth sensing of nutrients to enhance sports performance |
| Q37992398 | The gut-brain dopamine axis: a regulatory system for caloric intake. |
| Q37594461 | The reward value of sucrose in leptin-deficient obese mice. |
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