Watts, Alan - University of Southern California, USC - Department of Biological Sciences

个人简介

B.S. Applied Biology, University of Wales, UK, 1977 Ph.D. Neuroendocrinology, Oxford University, 1983

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Khan, A. M., Kaminski, K. L., Sanchez-Watts, G., Ponzio, T. A., Kuzmiski, J. B., Bains, J. S., Watts, A. G. (2011). MAP kinases couple hindbrain-derived catecholamine signals to hypothalamic adrenocortical control mechanisms during glycemia-related challenges. J. Neuroscience. Vol. 31, pp. 18479-18491. Lui, Y., Poon, V., Sanchez-Watts, G., Watts, A. G., Takemori, H., Aguilera, G. (2011). Salt-inducible kinase is involved in the regulation of corticotropin-releasing hormone transcription in hypothalamic neurons in rats. Endocrinology.. Vol. 153 (1), pp. 223-233. Watts, A. G., Sanchez-Watts, G., Liu, Y., Aguilera, G. (2011). The distribution of messenger RNAs encoding the three isoforms of the Transducer Of Regulated CREB Activity (TORC) in the rat forebrain. J. Neuroendocrinology. Vol. 23, pp. 754-766. Boyle, C. N., Lorenzen, S. M., Compton, D., Watts, A. G. (2011). Dehydration-anorexia derives from a reduction in meal size, but not meal number. Physiology & Behavior. Vol. 105, pp. 305-314. Watts, A. G. (2010). Structure and function in the conceptual development of mammalian neuroendocrinology between 1920 and 1965. Brain Research Reviews. Vol. 65 (2), pp. 174-204. Watts, A. G., Boyle, C. N. (2010). The functional architecture of dehydration-anorexia. Physiology & Behavior. Vol. 100, pp. 422-427. Watts, A. G., Donovan, C. D. (2010). Sweet Talk In The Brain: Glucosensing, Neural Networks, and Hypoglycemic Counterregulation. Frontiers in Neuroendocrinology. Frontiers in Neuroendocrinology. Salter-Venzon, D., Watts, A. G. (2009). Site-specific attenuation of feeding response after hypothalamic injections of neuropeptide Y in anorexia. Am. J. Physiol. Reg, and Comp Physiol.. Vol. 297 (6), pp. R1813-1821. Salter-Venzon, D., Watts, A. G. (2008). The role of hypothalamic ingestive behavior controllers in generating dehydration anorexia: a FOS mapping study. Am. J. Physiol. Reg, and Comp Physiol.. Vol. 295, pp. R1009-1019. Watts, A., Sanchez-Watts, G. (2007). Rapid and preferential activation of Fos protein in hypocretin/orexin neurons following the reversal of dehydration-anorexia. J. Comp.Neurol.. Vol. 502, pp. 768-782. Watts, A., Salter, D. S., Neuner, C. M. (2007). Neural network interactions and ingestive behavior control during anorexia. Pysiology & Behavior. Vol. 91, pp. 389-396. Khan, A. M., Ponzio, T. A., Sanchez-Watts, G., Stanley, B. G., Hatton, G. I., Watts, A. (2007). Catecholaminergic control of MAP kinase signaling in paraventricular neuroendocrine neurons in vivo and in vitro: A proposed role during glycemic challenges. J.Neuroscience. Vol. 27, pp. 7344-7360. Gorton, L. M., Khan, A. M., Bohland, M. A., Sanchez-Watts, G., Donovan, C. M., Watts, A. (2007). A role for the forebrain in mediating time-of-day differences in glucocorticoid counterregulatory responses to hypoglycemia. Endocrinology.. Vol. 148, pp. 6026-6039. Watts, A., Sanchez-Watts, G., Salter, G., Neuner, C. M. (2006). Activation in neural networks controlling ingestive behaviors: what does it mean and how do we map and measure it?. Physiology & Behavior. Vol. 89, pp. 501-520. Swanson, L. W., Sanchez-Watts, G., Watts, A. (2005). Comparison of melanin-concentrating hormone and hypocretin/orexin mRNA expression patterns in a new parcelating scheme of the lateral hypothalamic zone. Neuroscience Letters. Vol. 387, pp. 80-84. Watts, A. (2005). Glucocorticoid regulation of peptide genes in neuroendocrine CRH neurons: a complexity beyond negative feedback. Frontiers in Neuroendocrinology. Vol. 26, pp. 109-130. Khan, A. M., Watts, A. (2004). Intravenous 2-deoxy-D-glucose Injection Rapidly Elevates Levels of the Phosphorylated Forms of p44/42 Mitogen Activated Protein Kinases (Erk 1/2) in Rat Hypothalamic Parvocellular Paraventricular Neurons. Endocrinology.. Vol. 145, pp. 351-359. Watts, A., Tanimura, S. M., Sanchez-Watts, G. (2004). Crh and Avp gene transcription in the hypothalamic paraventricular nucleus of unstressed rats: daily rhythms and their corticosterone dependence. Endocrinology.. Vol. 145, pp. 529-540.