TRAVERSA, UGO
TRAVERSA, UGO
Dipartimento di Scienze della Vita
Settore BIO/14 - Farmacologia
11. A.M. Rosati, U.Traversa, R. Lucchi, A. Poli. Biochemical and pharmacological evidence for the presence of A1 but nor A2a adenosine receptors in the brain of the low vertebrate teleost Carassius auratus (goldfish).
1995-01-01 A. M., Rosati; Traversa, Ugo; R., Lucchi; A., Poli
5'-N-ethyl-carboxamido[8-3H]adenosine binds to two different adenosine receptors in rat cerebral cortex membranes
1988-01-01 C., Florio; Traversa, Ugo; R., Vertua; P., Puppini
Adenosine A1 receptor-mediated inhibition of evoked glutamate release is coupled to calcium influx decrease in goldfish brain synaptosomes.
1993-01-01 Poli, A.; Lucchi, R.; Zottini, M.; Traversa, Ugo
Adenosine receptors in cortical-derived vesicles of the rat: studies on binding sites and accumulation of cyclic AMP
1990-01-01 Florio, Chiara; Rosati, Am; Traversa, Ugo; Vertua, R.
An NK1 receptor-dependent component of the slow excitation recordered intracellularly from rat motoneirones following dorsal root stimulation
1995-01-01 Baranaukas, G.; Traversa, Ugo; Rosati, A. M.; Traversa, U.
Circadian rhythm in adenosine A1 receptor of mouse cerebral cortex
1991-01-01 Florio, Chiara; Rosati, Am; Traversa, Ugo; Vertua, R.
Circadian rhythm of cortical and striatal adenosine receptors.
1993-01-01 A. M., Rosati; Traversa, Ugo; C., Florio; R. V. E. R. T. U. A. CIRCADIAN RHYTHM OF CORTICAL AND STRIATAL ADENOSINE R. E. C. E. P. T. O. R. S. LIFE S. C., I.
Distribution and expression of A1 adenosine receptors, adenosine deaminase and adenosine deaminase-binding protein in goldfish brain
2003-01-01 Beraudi, A.; Traversa, Ugo; Villani, L.; Sekino, Y.; Nagy, J. I.; Poli, A.
Effects of caffeine and chlordesmethyldiazepam on fighting behavior of mice with different reactivity baselines
1985-01-01 Traversa, Ugo; DE ANGELIS, L.; DELLA LOGGIA, Roberto; Bertolissi, M.; Nardini, G.; Vertua, R.
Effects of nicergoline on rabbit electroretinogram during recovery ischaemia in light and dark
1997-01-01 Blasco, G.; Traversa, Ugo; Drago, F.
Glial cells express multiple ATP binding cassette proteins which are involved in ATP release
2002-01-01 Ballerini, P.; DI IORIO, P.; Ciccarelli, R.; Nargi, E.; D'Alimonte, I.; Traversa, Ugo; Rathbone, M. P.; Caciagli, F.
Increased density of M1 receptors in the hippocampus of juvenile rats chronically deprived of NGF.
1999-01-01 Rosati, A. M.; Avignone, E. E.; Cherubini, E.; Cattaneo, A.; Traversa, Ugo
Inhibitory and excitatory effects of adenosine antagonists on spontaneous locomotor activity in mice
1997-01-01 Florio, Chiara; Rosati, Am; Traversa, Ugo; Vertua, R.
Mechanisms of apoptosis induced by purine nucleosides in astrocytes
2002-01-01 DI IORIO, P.; Kleywegt, S.; Ciccarelli, R.; Traversa, Ugo; Andrew, C. M.; Crocker, E. C.; WERSTIUK E., S; Rathbone, M. P.
Mechanisms of inhibitory effects of zinc and cadmium ions on agonist binding to adenosine A1 receptors in rat brain.
1999-01-01 Rosati, A. M.; Traversa, Ugo
Non-adenine based purines accelerate wound healing.
2006-01-01 Jiang, S; Zavitz, Cc; Wang, J; Saraf, A; Zielinski, R; Ramsbottom, Jd; Ballerini, P; D'Alimonte, I; Romano, S; Fischione, G; Traversa, Ugo; Werstiuk, Es; Rathbone, Mp
P2X7 receptor activation in rat brain cultured astrocytes increases the biosynthetic release of cysteinyl leukotrienes.
2005-01-01 Ballerini, P; Ciccarelli, R; Caciagli, F; Rathbone, Mp; Werstiuk, Es; Traversa, Ugo; Buccella, S; Giuliani, P; Jang, S; Nargi, E; Visini, D; Santavenere, C; DI IORIO, P.
P2Y1 and cysteinyl-leukotriene receptors mediate purines and cysteinyl-leukotriene co-release in primary cultures of rat microglia.
2005-01-01 Ballerini, P.; DI IORIO, P.; Ciccarelli, R.; Caciagli, F.; Poli, A.; Beraudi, A.; Buccella, S.; D'Alimonte, I.; D'Auro, M.; Nargi, E.; Patricelli, P.; Visini, D.; Traversa, Ugo
Pharmacological characterization of adenosine A1 receptors and its functional role in brown trout (Salmo trutta)brain
1999-01-01 Poli, A.; Lucchi, R.; Notari, S.; Zampacavallo, G.; Gandolfi, O.; Traversa, Ugo
Purine nucleosides protect injured neurons and stimulate neuronal regeneration by intracellular and membrane receptor-mediated mechanisms
2001-01-01 DI IORIO, P.; Caciagli, F.; Giuliani, P.; Ballerini, P.; Ciccarelli, R.; Sperling, O.; ZOREF SHANI, E.; Benowitz, L.; Traversa, Ugo; Bombi, G.; Florio, T.; Virgilio, A.; Andrew, C. M.; Crocker, C. E.; Werstiuk, E. S.; Middlemiss, P. J.; Rathbone, M. P.