Temporal-spatial pattern of c-fos expression in the rat brain in response to indispensable amino acid deficiency. I. The initial recognition phase.

[1]  D. Gietzen,et al.  Temporal-spatial pattern of c-Fos expression in the rat brain in response to indispensable amino acid deficiency. II. The learned taste aversion. , 1996, Brain research. Molecular brain research.

[2]  R. Drucker-Colín,et al.  Effects of catecholaminergic depletion of the amygdala and insular cortex on the potentiation of odor by taste aversions. , 1993, Behavioral and neural biology.

[3]  D. Gietzen Neural mechanisms in the responses to amino acid deficiency. , 1993, The Journal of nutrition.

[4]  C. Saper,et al.  Efferent projections of the infralimbic cortex of the rat , 1991, The Journal of comparative neurology.

[5]  B. Slotnick,et al.  Olfactory projections to the hypothalamus , 1991, The Journal of comparative neurology.

[6]  Q. Rogers,et al.  Effect of dietary limiting amino acid in prepyriform cortex on food intake. , 1990, The American journal of physiology.

[7]  M. Palkovits,et al.  Neuropeptide content and connectivity of the rat claustrum , 1990, Brain Research.

[8]  M. Greenberg,et al.  The regulation and function of c-fos and other immediate early genes in the nervous system , 1990, Neuron.

[9]  S. Cummings Distribution of corticotropin‐releasing factor in the cerebellum and precerebellar nuclei of the cat , 1989, The Journal of comparative neurology.

[10]  Q. Rogers,et al.  Dietary amino acid imbalance and neurochemical changes in three hypothalamic areas , 1989, Physiology & Behavior.

[11]  T. Curran,et al.  Expression of c-fos protein in brain: metabolic mapping at the cellular level. , 1988, Science.

[12]  M. Hanley,et al.  Proto-oncogenes in the nervous system , 1988, Neuron.

[13]  M. Dragunow,et al.  Localization and induction of c-fos protein-like immunoreactive material in the nuclei of adult mammalian neurons , 1988, Brain Research.

[14]  H. Moskowitz Umami: A basic taste Y. Kamamura and M. R. Kare (Eds.). Pp. 649, New York, Marcel Dekker, Inc., 1986, $65.00 , 1987, Appetite.

[15]  T. Curran,et al.  Mapping patterns of c-fos expression in the central nervous system after seizure. , 1987, Science.

[16]  L. Bellinger,et al.  The dorsomedial hypothalamic nucleus revisited: 1986 update , 1987, Brain Research Reviews.

[17]  Q. Rogers,et al.  Norepinephrine and amino acids in prepyriform cortex of rats fed imbalanced amino acid diets , 1986, Physiology & Behavior.

[18]  Q. Rogers,et al.  Effect of amino acid imbalance and deficiency on dietary choice patterns of rats , 1986, Physiology & Behavior.

[19]  James I. Morgan,et al.  Role of ion flux in the control of c-fos expression , 1986, Nature.

[20]  E. Neafsey,et al.  The topographical organization of neurons in the rat medial frontal, insular and olfactory cortex projecting to the solitary nucleus, olfactory bulb, periaqueductal gray and superior colliculus , 1986, Brain Research.

[21]  M. Greenberg,et al.  Nerve growth factor and epidermal growth factor induce rapid transient changes in proto-oncogene transcription in PC12 cells. , 1985, The Journal of biological chemistry.

[22]  I. Verma,et al.  Viral and cellular fos proteins: A comparative analysis , 1984, Cell.

[23]  T. Curran,et al.  c-fos protein can induce cellular transformation: A novel mechanism of activation of a cellular oncogene , 1984, Cell.

[24]  Q. Rogers,et al.  Cingulate lesions and behavioral adaptation to amino acid imbalanced diets , 1983, Physiology & Behavior.

[25]  H. Kita,et al.  An HRP study of the afferent connections to rat medial hypothalamic region , 1982, Brain Research Bulletin.

[26]  Q. Rogers,et al.  Effect of anterior prepyriform and medial amygdaloid lesions on acquisition of taste-avoidance and response to dietary amino acid imbalance , 1981, Physiology & Behavior.

[27]  M. Molinari,et al.  The organization of the claustroneocortical projections in the cat studied by means of the HRP retrograde axonal transport , 1981, The Journal of comparative neurology.

[28]  J. A. Ricardo,et al.  Anatomical evidence of direct projections from the nucleus of the solitary tract to the hypothalamus, amygdala, and other forebrain structures in the rat , 1978, Brain Research.

[29]  Q. Rogers,et al.  The influence of amino acids on the neuroregulation of food intake. , 1973, Federation proceedings.

[30]  Q. Rogers,et al.  Food intake and preference of olfactory bulbectomized rats fed amino acid imbalanced or deficient diets. , 1972, Physiology & behavior.

[31]  Q. Rogers,et al.  Importance of prepyriform cortex in food-intake response of rats to amino acids. , 1971, The American journal of physiology.

[32]  R. Wohlhueter,et al.  Effects of ingestion of disproportionate amounts of amino acids. , 1970, Physiological reviews.

[33]  A. Harper,et al.  Effect of amino acid imbalance in rats fed ad libitum, interval-fed or force-fed. , 1968, The Journal of nutrition.

[34]  T. Curran,et al.  Stimulus-transcription coupling in the nervous system: involvement of the inducible proto-oncogenes fos and jun. , 1991, Annual review of neuroscience.

[35]  T. Castonguay,et al.  Time course of food intake and plasma and brain amino acid concentrations in rats fed amino acid-imbalanced or -deficient diets , 1986 .

[36]  J. Brand,et al.  Interaction of the chemical senses with nutrition , 1986 .

[37]  T. Curran,et al.  Induction of c-fos gene and protein by growth factors precedes activation of c-myc , 1984, Nature.

[38]  G. Shepherd The Synaptic Organization of the Brain , 1979 .

[39]  Q. Rogers,et al.  Chapter 11 – The Control of Food Intake: When and How Are Amino Acids Involved? , 1977 .

[40]  R. Druga Projection of prepyriform cortex into claustrum. , 1971, Folia morphologica.

[41]  M. Kare,et al.  The Chemical senses and nutrition , 1967 .