Registro:

Referencias:

• Abrahamson, E.E., Moore, R.Y., Suprachiasmatic nucleus in the mouse: Retinal innervation, intrinsic organization and efferent projections (2001) Brain Res., 916, pp. 172-191
• Agostino, P.V., Ferreyra, G.A., Murad, A.D., Watanabe, Y., Golombek, D.A., Diurnal, circadian and photic regulation of calcium/calmodulin-dependent kinase II and neuronal nitric oxide synthase in the hamster suprachiasmatic nuclei (2004) Neurochem. Int., 44, pp. 617-625
• Aida, R., Moriya, T., Araki, M., Akiyama, M., Wada, K., Wada, E., Shibata, S., Gastrin-releasing peptide mediates photic entrainable signals to dorsal subsets of suprachiasmatic nucleus via induction of Period gene in mice (2002) Mol. Pharmacol., 61, pp. 26-34
• Akiyama, M., Kouzu, Y., Takahashi, S., Inhibition of light- or glutamate-induced mPer1 expression represses the phase shifts into the mouse circadian locomotor and suprachiasmatic firing rhythms (1999) J. Neurosci., 19, pp. 1115-1121
• Albrecht, U., Zheng, B., Larkin, D., Sun, Z.S., Lee, C.C., MPer1 and mper2 are essential for normal resetting of the circadian clock (2001) J. Biol. Rhythms, 16, pp. 100-104
• Antle, M.C., Silver, R., Orchestrating time: Arrangements of the brain circadian clock (2005) Trends Neurosci., 28, pp. 145-151
• Aschoff, J., Response curve in circadian periodicity (1965) Circadian Clocks, pp. 95-11. , (Aschoff J. ed.), North-Holland, Amsterdam
• Berchner-Pfannschmidt, U., Tug, S., Trinidad, B., Becker, M., Oehme, F., Flamme, I., Fandrey, J., Kirsch, M., The impact of N-nitrosomelatonin as nitric oxide donor in cell culture experiments (2008) J. Pineal Res., 45, pp. 489-496
• Blanchard-Fillion, B., Servy, C., Ducrocq, C., 1-Nitrosomelatonin is a spontaneous NO-releasing compound (2001) Free Radical Res., 35, pp. 857-866
• Buhr, E.D., Takahashi, J.S., Molecular components of the Mammalian circadian clock (2013) Handb. Exp. Pharmacol., 217, pp. 3-27
• Caspi, O., Melatonin for the prevention and treatment of jet lag (2004) Altern. Ther. Health Med., 10, pp. 74-78
• Dardente, H., Poirel, V.J., Klosen, P., Pevet, P., Masson-Pevet, M., Per and neuropeptide expression in the rat suprachiasmatic nuclei: Compartmentalization and differential cellular induction by light (2002) Brain Res., 958, pp. 261-271
• De Biase, P.M., Turjanski, A.G., Estrin, D.A., Doctorovich, F., Mechanisms of NO release by N1-nitrosomelatonin: Nucleophilic attack versus reducing pathways (2005) J. Org. Chem., 70, pp. 5790-5798
• Ding, J.M., Buchanan, G.F., Tischkau, S.A., A neuronal ryanodine receptor mediates light-induced phase delays of the circadian clock (1998) Nature, 394, pp. 381-384
• Dunlap, J.C., Loros, J.J., Decoursey, P.J., (2004) Chronobiology. Biological Timekeeping, , Sinauer Associates, Sunderland, Massachusetts
• Edelstein, K., De La Iglesia, H.O., Schwartz, W.J., Mrosovsky, N., Behavioral arousal blocks light-induced phase advances in locomotor rhythmicity but not light-induced Per1 and Fos expression in the hamster suprachiasmatic nucleus (2003) Neuroscience, 118, pp. 253-261
• Evangelista, A.M., Kohr, M.J., Murphy, E., S-Nitrosylation: Specificity, occupancy, and interaction with other post-translational modifications (2013) Antioxid. Redox Signal., 19, pp. 1209-1219
• Gillette, M.U., Mitchell, J.W., Signaling in the suprachiasmatic nucleus: Selectively responsive and integrative (2002) Cell Tissue Res., 309, pp. 99-107
• Golombek, D.A., Rosenstein, R.E., Physiology of circadian entrainment (2010) Physiol. Rev., 90, pp. 1063-1102
• Golombek, D.A., Ferreyra, G.A., Katz, M.E., Marpegan, L., De Tezanos Pinto, F., Fernández Alfonso, T., Yannielli, P.C., Neurochemistry of mammalian entrainment: Signal transduction pathways in the suprachiasmatic nuclei (2000) Biol. Rhythm Res., 30, pp. 56-70
• Golombek, D.A., Ferreyra, G.A., Agostino, P.V., Murad, A.D., Rubio, M.F., Pizzio, G.A., Katz, M.E., Bekinschtein, T.A., From light to genes: Moving the hands of the circadian clock (2003) Front. Biosci., 8, pp. s285-s293
• Golombek, D.A., Agostino, P.V., Plano, S.A., Ferreyra, G.A., Signaling in the mammalian circadian clock: The NO/cGMP pathway (2004) Neurochem. Int., 45, pp. 929-936
• Gonzalez, D.R., Fernandez, I.C., Ordenes, P.P., Treuer, A.V., Eller, G., Boric, M.P., Differential role of S-nitrosylation and the NO-cGMP-PKG pathway in cardiac contractility (2008) Nitric Oxide, 18, pp. 157-167
• Hall, C.N., Garthwaite, J., What is the real physiological NO concentration in vivo? (2009) Nitric Oxide, 21, pp. 92-103
• Hamada, T., Lesauter, J., Venuti, J.M., Silver, R., Expression of Period genes: Rhythmic and nonrhythmic compartments of the suprachiasmatic nucleus pacemaker (2001) J. Neurosci., 21, pp. 7742-7750
• Hart, J.D., Dulhunty, A.F., Nitric oxide activates or inhibits skeletal muscle ryanodine receptors depending on its concentration, membrane potential and ligand binding (2000) J. Memb. Biol., 173, pp. 227-236
• Herxheimer, A., Petrie, K.J., Melatonin for the prevention and treatment of jet lag (2002) Cochrane Database Syst. Rev., 2, pp. CD001520
• Ibata, Y., Takahashi, Y., Okamura, H., Kawakami, F., Terubayashi, H., Kubo, T., Yanaihara, N., Vasoactive intestinal peptide (VIP)-like immunoreactive neurons located in the rat suprachiasmatic nucleus receive a direct retinal projection (1989) Neurosci. Lett., 97, pp. 1-5
• Kakizawa, S., Yamazawa, T., Chen, Y., Nitric oxide-induced calcium release via ryanodine receptors regulates neuronal function (2012) EMBO J., 31, pp. 417-428
• Kirsch, M., De Groot, H., N-nitrosomelatonin outcompetes S-nitrosocysteine in inhibiting glyceraldehyde 3-phosphate dehydrogenase: First evidence that N-nitrosomelatonin can modify protein function (2008) J. Pineal Res., 44, pp. 244-249
• Kirsch, M., De Groot, H., N-nitrosomelatonin: Synthesis, chemical properties, potential prodrug (2009) J. Pineal Res., 46, pp. 121-127
• Kleinbongard, P., Dejam, A., Lauer, T., Plasma nitrite reflects constitutive nitric oxide synthase activity in mammals (2003) Free Radical Biol. Med., 35, pp. 790-796
• Kornhauser, J.M., Mayo, K.E., Takahashi, J.S., Light, immediate-early genes, and circadian rhythms (1996) Behav. Genet., 26, pp. 221-240
• Marpegan, L., Bekinschtein, T.A., Costas, M.A., Golombek, D.A., Circadian responses to endotoxin treatment in mice (2005) J. Neuroimmunol., 160, pp. 102-109
• Martinez-Ruiz, A., Araujo, I.M., Izquierdo-Alvarez, A., Hernansanz-Agustin, P., Lamas, S., Serrador, J.M., Specificity in S-nitrosylation: A short-range mechanism for NO signaling (2013) Antioxid. Redox Signal., 19, pp. 1220-1235
• Matsumoto, A., Gow, A.J., Membrane transfer of S-nitrosothiols (2011) Nitric Oxide, 25, pp. 102-107
• Melo, L., Golombek, D.A., Ralph, M.R., Regulation of circadian photic responses by nitric oxide (1997) J. Biol. Rhythms, 12, pp. 319-326
• Menaker, M., Murphy, Z.C., Sellix, M.T., Central control of peripheral circadian oscillators (2013) Curr. Opin. Neurobiol., 23, pp. 741-746
• Mistlberger, R.E., Nonphotic entrainment of circadian activity rhythms in suprachiasmatic nuclei-ablated hamsters (1992) Behav. Neurosci., 106, pp. 192-202
• Nakamura, T., Lipton, S.A., Emerging role of protein-protein transnitrosylation in cell signaling pathways (2013) Antioxid. Redox Signal., 18, pp. 239-249
• Oliveira, C.J., Curcio, M.F., Moraes, M.S., Tsujita, M., Travassos, L.R., Stern, A., Monteiro, H.P., The low molecular weight S-nitrosothiol, S-nitroso-N-acetylpenicillamine, promotes cell cycle progression in rabbit aortic endothelial cells (2008) Nitric Oxide, 18, pp. 241-255
• Peyrot, F., Grillon, C., Vergely, C., Rochette, L., Ducrocq, C., Pharmacokinetics of 1-nitrosomelatonin and detection by EPR using iron dithiocarbamate complex in mice (2005) Biochem. J., 387, pp. 473-478
• Pfeffer, M., Muller, C.M., Mordel, J., Meissl, H., Ansari, N., Deller, T., Korf, H.W., Von Gall, C., The mammalian molecular clockwork controls rhythmic expression of its own input pathway components (2009) J. Neurosci., 29, pp. 6114-6123
• Plano, S.A., Agostino, P.V., Golombek, D.A., Extracellular nitric oxide signaling in the hamster biological clock (2007) FEBS Lett., 581, pp. 5500-5504
• Plano, S.A., Golombek, D.A., Chiesa, J.J., Circadian entrainment to light-dark cycles involves extracellular nitric oxide communication within the suprachiasmatic nuclei (2010) Eur. J. Neurosci., 31, pp. 876-882
• Porterfield, V.M., Mintz, E.M., Temporal patterns of light-induced immediate-early gene expression in the suprachiasmatic nucleus (2009) Neurosci. Lett., 463, pp. 70-73
• Quintero, J.E., Kuhlman, S.J., McMahon, D.G., The biological clock nucleus: A multiphasic oscillator network regulated by light (2003) J. Neurosci., 23, pp. 8070-8076
• Reed, H.E., Meyer-Spasche, A., Cutler, D.J., Coen, C.W., Piggins, H.D., Vasoactive intestinal polypeptide (VIP) phase-shifts the rat suprachiasmatic nucleus clock in vitro (2001) Eur. J. Neurosci., 13, pp. 839-843
• Rodriguez-Juarez, F., Aguirre, E., Cadenas, S., Relative sensitivity of soluble guanylate cyclase and mitochondrial respiration to endogenous nitric oxide at physiological oxygen concentration (2007) Biochem. J., 405, pp. 223-231
• Rosenberg, R.S., Zee, P.C., Turek, F.W., Phase response curves to light in young and old hamsters (1991) Am. J. Physiol., 261, pp. R491-R495
• Russwurm, M., Koesling, D., NO activation of guanylyl cyclase (2004) EMBO J., 23, pp. 4443-4450
• Salter, M., Duffy, C., Garthwaite, J., Strijbos, P.J., Ex vivo measurement of brain tissue nitrite and nitrate accurately reflects nitric oxide synthase activity in vivo (1996) J. Neurochem., 66, pp. 1683-1690
• Sengupta, R., Holmgren, A., Thioredoxin and thioredoxin reductase in relation to reversible s-nitrosylation (2013) Antioxid. Redox Signal., 18, pp. 259-269
• Shigeyoshi, Y., Taguchi, K., Yamamoto, S., Light-induced resetting of a mammalian circadian clock is associated with rapid induction of the mPer1 transcript (1997) Cell, 91, pp. 1043-1053
• Shirakawa, T., Honma, S., Honma, K., Multiple oscillators in the suprachiasmatic nucleus (2001) Chronobiol. Int., 18, pp. 371-387
• Smith, R.D., Turek, F.W., Takahashi, J.S., Two families of phase-response curves characterize the resetting of the hamster circadian clock (1992) Am. J. Physiol., 262, pp. R1149-R1153
• Stetson, M.H., Watson-Whitmyre, M., Nucleus suprachiasmaticus: The biological clock in the hamster? (1976) Science, 191, pp. 197-199
• Trávnícková, Z., Sumová, A., Peters, R., Schwartz, W.J., Illnerová, H., Photoperiod-dependent correlation between light-induced SCN c-fos expression and resetting of circadian phase (1996) Am. J. Physiol., 271, pp. 825-831
• Turjanski, A., Chaia, Z.D., Doctorovich, F., Estrin, D., Rosenstein, R., Piro, O.E., N-nitrosomelatonin (2000) Acta Crystallogr. C, 56, pp. 682-683
• Turjanski, A., Leonik, F., Estrin, D., Rosenstein, R.E., Doctorovich, F., Scavenging of NO by Melatonin (2000) J. Am. Chem. Soc., 122, pp. 10468-10469
• Vasalou, C., Henson, M.A., A multicellular model for differential regulation of circadian signals in the core and shell regions of the suprachiasmatic nucleus (2011) J. Theor. Biol., 288, pp. 44-56
• Vileikyte, L., Leventhal, H., Gonzalez, J.S., Diabetic peripheral neuropathy and depressive symptoms: The association revisited (2005) Diabetes Care, 28, pp. 2378-2383
• Wang, H., Viatchenko-Karpinski, S., Sun, J., Regulation of myocyte contraction via neuronal nitric oxide synthase: Role of ryanodine receptor S-nitrosylation (2010) J. Physiol., 588, pp. 2905-2917
• Watanabe, A., Ono, M., Shibata, S., Watanabe, S., Effect of a nitric oxide synthase inhibitor, N-nitro-L-arginine methylester, on light-induced phase delay of circadian rhythm of wheel-running activity in golden hamsters (1995) Neurosci. Lett., 192, pp. 25-28
• Watanabe, K., Vanecek, J., Yamaoka, S., In vitro entrainment of the circadian rhythm of vasopressin-releasing cells in suprachiasmatic nucleus by vasoactive intestinal polypeptide (2000) Brain Res., 877, pp. 361-366
• Weber, E.T., Gannon, R.L., Michel, A.M., Gillette, M.U., Rea, M.A., Nitric oxide synthase inhibitor blocks light-induced phase shifts of the circadian activity rhythm, but not c-fos expression in the suprachiasmatic nucleus of the Syrian hamster (1995) Brain Res., 692, pp. 137-142
• Yannielli, P., Harrington, M.E., Let there be "more" light: Enhancement of light actions on the circadian system through non-photic pathways (2004) Prog. Neurobiol., 74, pp. 59-76

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------