RETINAL AFFERENT ARBORIZATION PATTERNS, DENDRITIC FIELD ORIENTATIONS, AND THE SEGREGATION OF FUNCTION IN THE LATERAL GENICULATE-NUCLEUS OF THE MONKEY

Optic tract fibers and cell bodies in the lateral geniculate nucleus of the monkey were studied intracellulary with micropipette electrodes containing the marker enzyme horseradish peroxidase. Single optic-tract fibers always projected to only one of the six geniculate layers. The majority of the axons innervating the four parvocellular laminae were red/green opponent color units; their terminations formed cylindrical columns that were perpendicular to the layers. In similar fashion, the geniculate cells in the parvocellular layers were mostly red/green units with narrow, bipolar dendritic fields oriented normal to the laminar borders. The majority of the retinal axons ending in parvocellular layers 6 and 5 were on-center units; nearly all geniculate cells in these two laminae were also on-center neurons. In layers 4 and 3 most temrinating optic-tract fibers, as well as the geniculate cells themselves, were off-center units. All axons projecting to the magnocellular layers were broad-band units with spherical terminal arborizations. The magnocellular geniculate neurons, which were also broad band, had extensive spherical dendritic fields that often crossed laminar borders. Thus, the terminal patterns of each class of retinogeniculate axon closely resembled the dendritic orientations of the functionally related geniculate target cells.