Dorothy W. Gietzen

University of California, Davis, Davis, CA 
neuroscience, amino acid nutrition, feeding
"Dorothy Gietzen"
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Gietzen DW, Anthony TG, Fafournoux P, et al. (2016) Measuring the Ability of Mice to Sense Dietary Essential Amino Acid Deficiency: The Importance of Amino Acid Status and Timing. Cell Reports. 16: 2049-50
Sharp JW, Ross-Inta CM, Baccelli I, et al. (2013) Effects of essential amino acid deficiency: down-regulation of KCC2 and the GABAA receptor; disinhibition in the anterior piriform cortex. Journal of Neurochemistry. 127: 520-30
Anthony TG, Gietzen DW. (2013) Detection of amino acid deprivation in the central nervous system. Current Opinion in Clinical Nutrition and Metabolic Care. 16: 96-101
Gietzen DW, Aja SM. (2012) The brain's response to an essential amino acid-deficient diet and the circuitous route to a better meal. Molecular Neurobiology. 46: 332-48
Rudell JB, Rechs AJ, Kelman TJ, et al. (2011) The anterior piriform cortex is sufficient for detecting depletion of an indispensable amino acid, showing independent cortical sensory function. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 31: 1583-90
Hao S, Ross-Inta CM, Gietzen DW. (2010) The sensing of essential amino acid deficiency in the anterior piriform cortex, that requires the uncharged tRNA/GCN2 pathway, is sensitive to wortmannin but not rapamycin. Pharmacology, Biochemistry, and Behavior. 94: 333-40
Gietzen DW, Hao S, Anthony TG. (2007) Mechanisms of food intake repression in indispensable amino acid deficiency. Annual Review of Nutrition. 27: 63-78
Gietzen DW, Hao S, Anthony TG. (2007) Amino acid-sensing mechanisms: Biochemistry and behavior Handbook of Neurochemistry and Molecular Neurobiology: Sensory Neurochemistry. 249-269
Gietzen DW, Rogers QR. (2006) Nutritional homeostasis and indispensable amino acid sensing: a new solution to an old puzzle. Trends in Neurosciences. 29: 91-9
Sharp JW, Ross-Inta CM, Hao S, et al. (2006) Co-localization of phosphorylated extracellular signal-regulated protein kinases 1/2 (ERK1/2) and phosphorylated eukaryotic initiation factor 2alpha (eIF2alpha) in response to a threonine-devoid diet. The Journal of Comparative Neurology. 494: 485-94
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