Gap junctions among the perikarya, dendrites, and axon terminals of the luminosity-type horizontal cell of the turtle retina.

Gap junctions of the H1 horizontal cell of the turtle retina (Leeper, '78) were studied in thin-sectioned material and in freeze-fracture replicas. Perikaryal gap junctions were extremely restricted, 0.02-0.07 micron2 in in area, whereas those of axon terminals were much larger, most being 0.1-1.0 micron2. Both varieties, however, had the usual seven-layered appearance in thin section and measured 15 +/- 1 nm in overall width between cytoplasmic faces. Freeze-fractured views of the perikaryal junctions revealed roughly circular patches of P-face 9-nm particles and E-face pits. The axon terminal gap junctions were seen as large areas of P-face particles and E-face pits containing occasional islands of unspecialized membrane. Particle densities varied from 1,455 to 2,448 microns-2. A serial reconstruction was made of a portion of the axon terminal network in order to measure the surface areas of the axons contained therein and the fraction occupied by gap junctions. These data demonstrated that the fractional area occupied by gap junctions was roughly in inverse proportion to the area of the axon region (tuberous core vs. terminal process). It is argued that this constitutes an impedance matching device to ensure adequate current flow through the axon processes. Assuming that each P-face particle represents a connection having a conductance of 10(-10) S and given the P-face particle density and gap junctional areas determined in this report, we calculated that the gap junction distribution is adequate to account for the spatial properties of the horizontal cell axon network (Lamb, '76).