Asymmetry in structure of in termediate and large neurons of frog retinal ganglion layer

Abstract

We have carried out a morphometric investigation of the symmetry of intermediate (type II) and large (types III and V) ganglion cells on silver-impregnated retinal wholemounts of frog retina. We selected the nucleolus of theneuron and the axis passing through the nucleolus in the direction of the optic disk (central and bilateral symmetry) as elements of symmetry. We have shown that the dendritic ramification angles of all cell types are smaller than 360° and those of type II cells smaller than 180°; the cell somata do not lie in the center of the dendritic field and consequently the ganglion cells do not possess radial symmetry. In the vast majority of ganglion cells the directions of the start of the axon and dendrites are opposite to each other, the dendrites being oriented in the direction from the retinal center towards the periphery in all quadrants of the retinal map. For the estimation of the bilateral symmetry we measured the distance from the most remote dendritic terminals to the axis on the left and right of the axis, and counted the number of ramification knots and basal dendrites. We established that the majority of ganglion cells are asymmetrical as regards two or three of the characteristics mentioned. Consequently the asymmetrical structure of ganglion cells of the frog is a normal characteristic rather than an exception. The correlation between the asymmetry of the structure of ganglion cells and the functional asymmetry of their receptive fields is discussed.