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P Semm

Showing results (1-10 of 32) with videos related to

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Progress in Clinical and Biological Research|January 1, 1988
The magnetic detection system of the pigeon: involvement of pineal and retinal photoreceptors and the vestibular systemP Semm
Neuroscience Letters|July 17, 2009
Antidromically activated direction selective ganglion cells of the rabbitP Semm
Journal of Neural Transmission|January 1, 1980
Electrophysiological evidence for circadian rhythmicity in a mammalian pineal organP Semm, L Vollrath
Neuroscience Letters|December 12, 1986
Magnetic fields abolish nychthemeral rhythmicity of responses of Purkinje cells to the pineal hormone melatonin in the pigeon's cerebellumC Demaine, P Semm
Brain Research Bulletin|November 1, 1984
Electrophysiological evidence for central nervous connections of the pigeon's pineal glandC Demaine, P Semm
Progress in Brain Research|January 1, 1979
Electrophysiology of the guinea-pig pineal organ: sympathetic influence and different reactions to light and darknessP Semm, L Vollrath
Neuroscience Letters|April 1, 1979
Electrophysiology of the guinea-pig pineal organ: sympathetically influenced cells responding differently to light and darknessP Semm, L Vollrath
Neuroscience Letters|November 20, 1985
The avian pineal gland as an independent magnetic sensorC Demaine, P Semm
Brain Research Bulletin|January 1, 1984
Electrophysiology of the pigeon's habenular nuclei: evidence for pineal connections and input from the visual systemP Semm, C Demaine
Die Naturwissenschaften|January 1, 1987
Effects of an earth-strength magnetic field on pineal melatonin synthesis in pigeonsS Reuss, P Semm
Pageof 4

Showing results (1-10 of 32) with videos related to

Sort By:
Pageof 4
Progress in Clinical and Biological Research|January 1, 1988
The magnetic detection system of the pigeon: involvement of pineal and retinal photoreceptors and the vestibular systemP Semm
Neuroscience Letters|July 17, 2009
Antidromically activated direction selective ganglion cells of the rabbitP Semm
Journal of Neural Transmission|January 1, 1980
Electrophysiological evidence for circadian rhythmicity in a mammalian pineal organP Semm, L Vollrath
Neuroscience Letters|December 12, 1986
Magnetic fields abolish nychthemeral rhythmicity of responses of Purkinje cells to the pineal hormone melatonin in the pigeon's cerebellumC Demaine, P Semm
Brain Research Bulletin|November 1, 1984
Electrophysiological evidence for central nervous connections of the pigeon's pineal glandC Demaine, P Semm
Progress in Brain Research|January 1, 1979
Electrophysiology of the guinea-pig pineal organ: sympathetic influence and different reactions to light and darknessP Semm, L Vollrath
Neuroscience Letters|April 1, 1979
Electrophysiology of the guinea-pig pineal organ: sympathetically influenced cells responding differently to light and darknessP Semm, L Vollrath
Neuroscience Letters|November 20, 1985
The avian pineal gland as an independent magnetic sensorC Demaine, P Semm
Brain Research Bulletin|January 1, 1984
Electrophysiology of the pigeon's habenular nuclei: evidence for pineal connections and input from the visual systemP Semm, C Demaine
Die Naturwissenschaften|January 1, 1987
Effects of an earth-strength magnetic field on pineal melatonin synthesis in pigeonsS Reuss, P Semm
Pageof 4