Goldfish Abducens Motoneurons: Physiological and Anatomical Specialization
- 26 September 1975
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 189 (4208) , 1091-1093
- https://doi.org/10.1126/science.1162358
Abstract
During natural movements, the motoneurons innervating a single muscle have different patterns of activity that are correlated with differences in synaptic input. The caudal abducens motoneurons fire phasically in synchronous bursts before rapid posterior eye movements; the rostral abducens motoneurons fire only tonically when the eye is fixed or moving slowly. This physiological difference is not related to motoneuron size. In this respect the abducens motoneurons violate the "size principle" that has been advanced for spinal motoneurons. The difference is probably related to the present finding that the caudal but not the rostral cells receive numerous electrical synapses that are known to have a role in synchronizing phasic activity.Keywords
This publication has 17 references indexed in Scilit:
- The control of movement and postureBrain Research, 1973
- Eye muscle motor neurons with different functional characteristicsBrain Research, 1972
- Eye movement correlated units in mesencephalic oculomotor complex of goldfishBrain Research, 1971
- Mammalian Motor Units: Physiological-Histochemical Correlation in Three Types in Cat GastrocnemiusScience, 1971
- Spontaneous eye movements in restrained goldfishVision Research, 1971
- Dendritic and somatic impulse initiation in fish oculomotor neurons during vestibular nystagmusBrain Research, 1971
- The discharge characteristics of single units in the oculomotor and abducens nuclei of the unanesthetized monkeyExperimental Brain Research, 1970
- Oculomotor Neurons in Fish: Electrotonic Coupling and Multiple Sites of Impulse InitiationScience, 1969
- Organization and fine structure of extraocular muscles in Carassius and RanaCell and tissue research, 1969
- In Vivo Studies on Fast and Slow Muscle Fibers in Cat Extraocular MusclesThe Journal of general physiology, 1966