Publicaciones por autor                 Instituto de Investigaciones Biológicas Clemente Estable

Omar Macadar Cirillo                                    Volver a página anterior

TRUJILLO-CENOZ, O., J.A. ECHAGUE, O. MACADAR. Innervation Pattern and Electric Organ Discharge Waveform in Gymnotus carapo. J. Neurobiol. 15:273- 282. 1984.
MACADAR, O., D. LORENZO AND J.C. VELLUTI. Waveform generation of the Electric Organ Discharge in Gymnotus carapo. II Electrophysiological properties of single electrocytes. J. Comp. Physiol. A. 165: 353-360.1989.
CAPUTI, A., O. MACADAR AND O. TRUJILLO-CENOZ. Waveform generation of the Electric Organ Discharge in Gymnotus carapo. III: The Electrogenic Organ as an Electric Source. J. Comp. Physiol. A. 165: 361-368. 1989.
SUAREZ, H., CAFFA, C., and MACADAR, O. Postural recovery and vestibular habituation in cerebellar patients. Restor. Neurol. Neurosci. 4 (4) 255-259, 1992

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Omar Macadar Cirillo                        Volver a página anterior

D. LORENZO, F. SIERRA, A. SILVA, O. MACADAR. Spatial Distribution of the medullary command signal within the electric organ of Gymnotus carapo. J. Comp. Physiol A. 173: 221-226. 1993
O. MACADAR. Motor control of waveform generation in Gymnotus J. Comp. Physiol. A 173: 728. 1993
F. SIERRA, D. LORENZO, O. MACADAR , W. BUÑO. N-type Ca2+ channels mediate transmitter release at the electromotoneuron-electrocyte synapses of the weakly electric fish Gymnotus carapo. Brain Research 683: 215-220 , 1995
A. CAPURRO, M. REYES-PARADA, D. OLAZABAL, R. PERRONE, R. SILVEIRA, O. MACADAR. Aggressive behavior and Jamming Avoidance Response in the weakly electric fish Gymnotus carapo : effects of 3,4-Methylenedioximethamphetamine (MDMA). Comp.Biochem.Physiol. 110 : 367-376, 1997.  


 

 

 

 

Felipe Sierra                                        Volver a página anterior

Spinal mechanisms of electric organ discharge synchronization in Gymnotus carapo.
D. Lorenzo, F. Sierra, A. Silva and O. Macadar. (1990). J. Comp. Physiol. A. 167: 447-452.
Waveform generation of the electric organ discharge in Gymnotus carapo. II. Physiological studies.
D. Lorenzo, F. Sierra and A. Silva. (1991). Workshop on Fundamental Neurobiology. (Eds.) E. García-Austt, O. Macadar, O. Trujillo-Cenóz, R. Velluti. Universidad de la República. Montevideo. pp. 207-214.
Spatial distribution of the medullary command signal within the electric organ of Gymnotus carapo.
D. Lorenzo, F. Sierra, A. Silva and O. Macadar. (1993). J. Comp. Physiol. A. 173: 221-226.
Spatio-temporal analysis of electrogeneration in Gymnotus carapo.
D. Lorenzo, A. Silva, F. Sierra and A. Caputi. (1993). J. Comp. Physiol. A. 173 (6): 750.

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Felipe Sierra                                         Volver a página anterior

N-type Ca2+ channels mediate transmitter release at the electromotor-electrocyte synapses of the weakly electric fish Gymnotus carapo.
F. Sierra, D. Lorenzo, O. Macadar and W. Buño. (1995). Brain Res. 683: 215-220
Preparation of giant myelin vesicles and proteoliposomes to register ionic channels.
P. Regueiro, J. Monreal, R.S. Díaz and F. Sierra.(1996). J. Neurochem. 67: 2146-2154.
Different voltage-gated sodium currents are expressed by human neuroblastoma NB69 cells when cultured in defined serum-free and in astroglial-conditioned media.
F. J. Urbano, F. Sierra, J. A. Colombo, J. M. Velasco and  W. Buño. (1997).Glia 19: 161-170.
Differential expression of voltage-gated Ca2+ conductances in human   neuroblastoma NB69 cells cultured in defined serum-free and astrocyte-conditioned media.
F. J. Urbano, F. Sierra, J. M. Velasco and W. Buño.(1997). Glia, 20: 70-78.

 

 

 

 

 

Ana Celia Silva Barbato                    Volver a página anterior

Spinal mechanisms of electric organ discharge synchronization in Gymnotus carapo.
D. Lorenzo; F. Sierra; A. Silva and O. Macadar.
Journal of Comparative Physiology A. (1990)  167: 447-452.
Mecanismos espinales de sincronización de la descarga del órgano eléctrico en Gymnotus carapo. Ana Silva.
PEDECIBA  (1990)
Waveform generation of the electric organ discharge in Gymnotus carapo.   II. Physiological Studies.  D. Lorenzo, F. Sierra and A. Silva.
En Workshop of Fundamental Neurobiology.  (1992)  Editado por: E. García-Austt, O. Macadar, O. Trujillo-Cenóz y R. Velluti.  Depto. de Publicaciones, Universidad de la República, Montevideo, Uruguay;  pp. 207-215.
Electric organ activation in Gymnotus carapo: spinal origin and peripheral mechanisms.
A. Caputi, A. Silva and O. Macadar.
Journal of Comparative Physiology A. (1993)  173: 221-226.

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Ana Celia Silva Barbato                     Volver a página anterior

Spatial distribution of the medullary command signal within the electric organ of Gymnotus carapo. D. Lorenzo, F. Sierra, A. Silva, and O. Macadar.
Journal of Comparative Physiology A. (1993)  173: 227-232.
Spatio-temporal analysis of electrogeneration in Gymnotus carapo.
D. Lorenzo, A. Silva, F. Sierra, and A. Caputi.
Journal of Comparative Physiology A. (1993)  173, Nº6: 750.
Regulation of synaptic strength at mixed synapses: effects of dopamine receptor blockade and Protein Kinase C activation
A. Silva, S. Kumar, A. Pereda and D.S. Faber
Neuropharmacology (1995) 34 Nº 11: 1559-1565
The electric organ discharge of Brachyhypopomus pinnicaudatus. The effect of environmental variables on waveform generation.
A. Caputi, A.C. Silva, and O. Macadar.
Enviado para su publicación en Brain, Behavior and Evolution.