Abstract

1. In fully awake rabbits the stability of the two eyes was monitored and was sufficient to enable receptive-field analysis of antidromically identified efferent neurons and suspected interneurons in the binocular segment of visual area 1. Efferent neurons analyzed included callosal efferent neurons (CC neurons, n = 52), neurons projecting to visual area 2 (CV2 neurons, n = 35), corticotectal neurons (CT neurons, n = 43), and corticogeniculate neurons (CG neurons, n = 51). Six additional neurons projected a branching axon to both the corpus callosum and visual area 2. 2. Most CC and CV2 neurons were found in layer 2-3 and had receptive fields of the simple type. Only two corticocortical neurons with complex receptive fields were found. Orientation tuning ranges of CC and CV2 simple cells were similar and end stopping was prevalent in both CC (62%) and CV2 (45%) neurons. Axonal conduction velocities of CC and CV2 neurons were low (mean = 3.5 and 1.4 m/s, respectively) and visually nonresponsive CC neurons (19%) had conduction velocities that were significantly lower than visually responsive neurons. Spontaneous firing rates of corticocortical neurons were low (mean less than 1 spike/s) and these neurons responded to a lower range of stimulus velocities than did corticofugal neurons. 3. Most CG neurons had simple receptive fields and none had a complex field. Orientation tuning ranges of these neurons were comparable to those of CC and CV2 neurons, but a significantly smaller proportion (12%) were end stopped. Both spontaneous firing rates (mean = less than 1 spike/s) and axonal conduction velocities (mean = 2.4 m/s) of CG neurons were low and, as was found for CC neurons, visually nonresponsive CG neurons (25%) had significantly lower conduction velocities than did visually responsive neurons. 4. CT neurons had receptive fields that were predominantly complex (37%), motion/uniform (28%), or simple (26%). Conduction velocities (mean = 10.9 m/s) and spontaneous firing rates (mean = 7 spikes/s) of CT neurons of all receptive-field types were much higher than those of CC, CV2, and CG neurons. 5. An additional class of neurons was studied that responded synaptically at a short latency to electrical stimulation of the dorsal lateral geniculate nucleus (LGNd) with a burst of three or more spikes at frequencies of 600-900 Hz. These neurons showed a high degree of synaptic convergence, also responding synaptically with a high-frequency burst of spikes to stimulation of both visual area 2 and the corpus callosum.(ABSTRACT TRUNCATED AT 400 WORDS)

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