| scholarly article | Q13442814 |
| P50 | author | Michael L. Goodson | Q72596478 |
| P2093 | author name string | Aki T-B Chaffin | |
| Karen K Ryan | |||
| Karlton R Larson | |||
| Yanbin Fang | |||
| P2860 | cites work | Identification of a novel FGF, FGF-21, preferentially expressed in the liver | Q22254289 |
| Tissue-specific expression of betaKlotho and fibroblast growth factor (FGF) receptor isoforms determines metabolic activity of FGF19 and FGF21 | Q24318639 | ||
| FGF-21 as a novel metabolic regulator | Q24523933 | ||
| BetaKlotho is required for metabolic activity of fibroblast growth factor 21 | Q24681531 | ||
| Central nervous system mechanisms linking the consumption of palatable high-fat diets to the defense of greater adiposity | Q26853424 | ||
| Neural control of energy balance: translating circuits to therapies | Q27005992 | ||
| Central Amino Acid Sensing in the Control of Feeding Behavior | Q28071492 | ||
| Protein-dependent regulation of feeding and metabolism | Q28088330 | ||
| FXR is a molecular target for the effects of vertical sleeve gastrectomy | Q28236848 | ||
| Hypothalamic mTOR signaling regulates food intake | Q28239714 | ||
| FGF21 is an endocrine signal of protein restriction | Q28572009 | ||
| Hepatic fibroblast growth factor 21 is regulated by PPARalpha and is a key mediator of hepatic lipid metabolism in ketotic states | Q29615208 | ||
| Endocrine regulation of the fasting response by PPARalpha-mediated induction of fibroblast growth factor 21 | Q29615209 | ||
| FGF21 Is a Sugar-Induced Hormone Associated with Sweet Intake and Preference in Humans | Q29655262 | ||
| Nutritional ecology of obesity: from humans to companion animals. | Q30368844 | ||
| Obesity: the protein leverage hypothesis. | Q31160720 | ||
| Macronutrient balance and lifespan | Q33627859 | ||
| Amino acid homeostasis and signalling in mammalian cells and organisms | Q33727454 | ||
| Fibroblast growth factor 21 action in the brain increases energy expenditure and insulin sensitivity in obese rats | Q33930333 | ||
| Leucine acts in the brain to suppress food intake but does not function as a physiological signal of low dietary protein. | Q34001612 | ||
| Research resource: Comprehensive expression atlas of the fibroblast growth factor system in adult mouse. | Q34197301 | ||
| FGF21 acts centrally to induce sympathetic nerve activity, energy expenditure, and weight loss. | Q34315567 | ||
| Novel locus including FGF21 is associated with dietary macronutrient intake | Q34325630 | ||
| The ratio of macronutrients, not caloric intake, dictates cardiometabolic health, aging, and longevity in ad libitum-fed mice | Q34408951 | ||
| The anterior piriform cortex is sufficient for detecting depletion of an indispensable amino acid, showing independent cortical sensory function | Q34754135 | ||
| Fructose ingestion acutely stimulates circulating FGF21 levels in humans | Q35040490 | ||
| Macronutrient balance, reproductive function, and lifespan in aging mice. | Q35212651 | ||
| A muscle-liver-fat signalling axis is essential for central control of adaptive adipose remodelling. | Q35407627 | ||
| Protein energy malnutrition impairs homeostatic proliferation of memory CD8 T cells | Q35629467 | ||
| Central Fibroblast Growth Factor 21 Browns White Fat via Sympathetic Action in Male Mice | Q35763646 | ||
| Homeostatic regulation of protein intake: in search of a mechanism | Q35900821 | ||
| Brainstem nutrient sensing in the nucleus of the solitary tract inhibits feeding. | Q36510898 | ||
| FGF21 Regulates Sweet and Alcohol Preference. | Q36567992 | ||
| FGF21 Mediates Endocrine Control of Simple Sugar Intake and Sweet Taste Preference by the Liver | Q36588765 | ||
| Neural and metabolic regulation of macronutrient intake and selection | Q36744032 | ||
| Brain responses to high-protein diets | Q36830386 | ||
| Amino acids inhibit Agrp gene expression via an mTOR-dependent mechanism. | Q37001180 | ||
| Metabolic Responses to Dietary Protein Restriction Require an Increase in FGF21 that Is Delayed by the Absence of GCN2 | Q37116027 | ||
| Protein quality assessment: impact of expanding understanding of protein and amino acid needs for optimal health | Q37158929 | ||
| FGF21 regulates metabolism and circadian behavior by acting on the nervous system | Q37161082 | ||
| A liver stress-endocrine nexus promotes metabolic integrity during dietary protein dilution | Q37217436 | ||
| FGF21 is not required for glucose homeostasis, ketosis or tumour suppression associated with ketogenic diets in mice | Q37485018 | ||
| Lack of overt FGF21 resistance in two mouse models of obesity and insulin resistance | Q38330457 | ||
| Understanding the Physiology of FGF21. | Q38665376 | ||
| The impact of low-protein high-carbohydrate diets on aging and lifespan | Q38683400 | ||
| Nutritional regulation of insulin-like growth factor-I. | Q40369435 | ||
| Neuropeptide Y and energy balance: one way ahead for the treatment of obesity? | Q40625857 | ||
| Rapid Sensing of Dietary Amino Acid Deficiency Does Not Require GCN2 | Q41585944 | ||
| Mediobasal hypothalamic p70 S6 kinase 1 modulates the control of energy homeostasis | Q41774358 | ||
| Effect of vertical sleeve gastrectomy on food selection and satiation in rats | Q41781678 | ||
| The fasting polypeptide FGF21 can enter brain from blood | Q41875742 | ||
| FGF21 mediates the lipid metabolism response to amino acid starvation. | Q42034608 | ||
| Mediobasal hypothalamic leucine sensing regulates food intake through activation of a hypothalamus-brainstem circuit | Q42550972 | ||
| Response to carbohydrate and fat refeeding in the expression of genes involved in nutrient partitioning and metabolism: striking effects on fibroblast growth factor-21 induction. | Q43259536 | ||
| The rapid anorectic response to a threonine imbalanced diet is decreased by injection of threonine into the anterior piriform cortex of rats | Q44529830 | ||
| Sex Differences in the Hormonal and Metabolic Response to Dietary Protein Dilution | Q46325063 | ||
| Dietary manipulations that induce ketosis activate the HPA axis in male rats and mice: a potential role for fibroblast growth factor-21. | Q46366367 | ||
| Prokaryotic soluble expression and purification of bioactive human fibroblast growth factor 21 using maltose-binding protein. | Q47151186 | ||
| Signals that regulate food intake and energy homeostasis | Q48035240 | ||
| FGF21 Mediates the Thermogenic and Insulin-Sensitizing Effects of Dietary Methionine Restriction but Not Its Effects on Hepatic Lipid Metabolism | Q48049582 | ||
| Effect of dietary limiting amino acid in prepyriform cortex on food intake | Q48891627 | ||
| Effect of Maternal Protein Deficiency on Cellular Development in the Fetal Rat , | Q48967218 | ||
| Metabolic pitfalls of CNS Cre-based technology. | Q50860964 | ||
| Importance of prepyriform cortex in food-intake response of rats to amino acids | Q51121499 | ||
| Defining the Nutritional and Metabolic Context of FGF21 Using the Geometric Framework. | Q51278414 | ||
| Geometric analysis of macronutrient selection in the rat. | Q52194262 | ||
| Putting the balance back in diet. | Q52797471 | ||
| Geometric analysis of macronutrient intake in humans: the power of protein? | Q53649759 | ||
| Fibroblast Growth Factor 21: A Versatile Regulator of Metabolic Homeostasis | Q56688189 | ||
| Immunocompetence of patients with protein-calorie malnutrition. The effects of nutritional repletion | Q67261706 | ||
| Effect of Amino Acid Imbalance in Rats Fed Ad Libitum, Interval-fed, or Force-fed | Q72079224 | ||
| Increased systolic blood pressure in adult rats induced by fetal exposure to maternal low protein diets | Q72329347 | ||
| AIN-93 purified diets for laboratory rodents: final report of the American Institute of Nutrition ad hoc writing committee on the reformulation of the AIN-76A rodent diet | Q72577338 | ||
| P433 | issue | 5 | |
| P304 | page(s) | 1069-1080 | |
| P577 | publication date | 2019-05-01 | |
| P1433 | published in | Endocrinology | Q3054009 |
| P1476 | title | Fibroblast Growth Factor-21 Controls Dietary Protein Intake in Male Mice | |
| P478 | volume | 160 |
| Q92816240 | Dietary Sulfur Amino Acid Restriction and the Integrated Stress Response: Mechanistic Insights |
| Q64900381 | FGF21 Signals Protein Status to the Brain and Adaptively Regulates Food Choice and Metabolism. |
| Q89669025 | FGF21 and the Physiological Regulation of Macronutrient Preference |
| Q101574318 | FGF21 signaling in glutamatergic neurons is required for weight loss associated with dietary protein dilution |
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