Beuckmann, et al., “Orexins: from neuropeptides to energy homeostasis and sleep/wake regulation”, Journal of Molecular Medicine, 80: 329-342 (2002). |
Kantrowitz, et al., “In Search of Sleep”, Newsweek, Jul. 15, 2002, p. 38. |
Risold, et al., “Preprohypocretin (Orexin) and Prolactin-Like Immunoreactivity are Coexpressed by Neurons of the Rat Lateral Hypothalamic Area,” Neuroscience Letters, 259: pp. 153-156 (1999). |
Schachter, et al., “Prolactin mRNA Exists in Rat Hypothalamus,” Endocrinology, 114(5): pp. 1947-1949 (1984). |
Valatx, et al., “Mise en Evidence d'ARN Messagers de la Prolactine Apres Amplification Dans Le Cerveau Du Rat,” C.R. Acad. Sci. Paris, 315(3): pp. 295-301 (1992). |
Emanuele, et al., “The Rat Prolactin Gene is Expressed in Brain Tissue: Detection of Normal and Alternatively Spliced Prolactin Messenger RNA,” Molecular Endocrinology, 6: pp. 35-42 (1992). |
Dutt, et al., “Prolactin, Central Nervous System and Behavior: A Critical Review,” Neuroendocrinology, 59: pp. 413-419 (1994). |
De Lecea, et al., “The Hypocretins: Hypothalamus-Specific Peptides With Neuroexcitatory Activity,” Proc. Natl. Acad. Sci. USA, 95: pp. 322-327 (1998). |
Grillon, et al., “Alteration of Dynorphin and Secretogranin II in the Prolactin Immunoreactive Neurons of the Rat Lateral Hypothalamus Upon Osmotic Stimulation,” Neuroscience Letters, 208: pp. 33-36 (1996). |
Fuxe, et al., “Prolactin-Like Immunoreactivity: Localization in Nerve Terminals of Rat Hypothalamus,” Science, 196: pp. 899-900 (1977). |
Peyron, et al., “Neurons Containing Hypocretin (Orexin) Project to Multiple Neuronal Systems,” The Journal of Neuroscience, 18(23): 9996-10015 (1998). |
Lazar, et al., “Transforming Growth Factor α: Mutation of Aspartic Acid 47 and Leucine 48 Results in Different Biological Activities,” Molecular and Cellular Biology, 8(3): pp. 1247-1252 (1998). |
Burgess, et al., “Possible Dissociation of the Heparin-Binding and Mitogenic Activities of Heparin-Binding (Acidic Fibroblast) Growth Factor-1 from Its Receptor-Binding Activities by Site-Directed Mutagenesis of a Single Lysine Residue,” The Journal of Cell Biology, 111: pp. 2129-2138 (1990). |
Sakurai, et al., “Orexins and Orexin Receptors: A Family of Hypothalamic Neuropeptides and G Protein-Coupled Receptors That Regulate Feeding Behavior,” Cell, 92: pp. 573-585 (1998). |
Alonso, et al., “Axons Containing a Prolactin-Like Peptide Project into the Perivascular Layer of the Median Eminence: An Immunocytochemical Light and Electron Microscope Study in Adult and Infant Rats,” Neuroendocrinology, 48: pp. 39-44 (1988). |
Clapp, et al., “The Prolactin Gene is Expressed in the Hypothalamic-Neurohypophyseal System and the Protein is Processed into a 14-kDa Fragment with Activity Like 16-kDa Prolactin,” Proc. Natl. Acad. Sci. USA, 91: pp. 10384-10388 (1994). |
Griffond, et al., “Occurrence of Secretogranin II in the Prolactin-Immunoreactive Neurons of the Rat Lateral Hypothalamus: An In Situ Hybridization and Immunocytochemical Study,” Journal of Chemical Neuroanatomy, 9: pp. 113-119 (1995). |
Paut-Pagano, et al., “Anatomical Distribution of Prolactin-Like Immunoreactivity in the Rat Brain,” Neuroendocrinology, 58: pp. 682-695 (1993). |
Bahjaoui-Bouhaddi, et al., “Induction of Fos-Immunoreactivity in Prolactin-Like Containing Neurons of the Rat Lateral Hypothalamus After Insulin Treatment,” Neuroscience Letters, 168: 11-15 (1994). |
Griffond, et al., “Evidence for the Expression of Dynorphin Gene in the Prolactin-Immunoreactive Neurons of the Rat Lateral Hypothalamus,” Neuroscience Letters, 165: pp. 89-92 (1994). |
Rudinger, J., “Characteristics of the Amino Acids as Components of a Peptide Hormone Sequence,” in Peptide Hormones, University Park Press, Baltimore, pp. 1-7 (1976). |