The eel retina. Ganglion cell classes and spatial mechanisms

We have been able to separate optic fibers in the eye of the eel Anguilla rostrata into two distinct classes on the basis of spatial summation properties. X fibers, the first class, are like X ganglion cells in the cat: they have null positions for contrast reversal sine gratings; they respond at the modulation frequency; and many have a strong surround mechanism. X fibers, the second class, respond with an "on-off" response to local stimulation, to diffuse light modulation, to coarse drifting gratings, and to contrast reversal gratings. We have put forward a model for the receptive field of X fibers which involves two subunits, with rectification before the subunits add their signals. This model accounts for many of the quirks of X fibers.

[1]  W. Levick Receptive fields and trigger features of ganglion cells in the visual streak of the rabbit's retina , 1967, The Journal of physiology.

[2]  R. W. Rodieck Quantitative analysis of cat retinal ganglion cell response to visual stimuli. , 1965, Vision research.

[3]  J. Stone,et al.  Properties of cat retinal ganglion cells: a comparison of W-cells with X- and Y-cells. , 1974, Journal of neurophysiology.

[4]  W. Pitts,et al.  Anatomy and Physiology of Vision in the Frog (Rana pipiens) , 1960, The Journal of general physiology.

[5]  Robert Shapley,et al.  An electronic visual stimulator , 1976 .

[6]  M. Levine,et al.  Variability in ganglion cell firing patterns; implications for separate “on” and “off” processes , 1977, Vision Research.

[7]  S. W. Kuffler Discharge patterns and functional organization of mammalian retina. , 1953, Journal of neurophysiology.

[8]  C. Enroth-Cugell,et al.  The contrast sensitivity of retinal ganglion cells of the cat , 1966, The Journal of physiology.

[9]  H. K. Hartline,et al.  THE RESPONSE OF SINGLE OPTIC NERVE FIBERS OF THE VERTEBRATE EYE TO ILLUMINATION OF THE RETINA , 1938 .

[10]  J. Stone,et al.  Retinal distribution and central projections of Y-, X-, and W-cells of the cat's retina. , 1974, Journal of neurophysiology.

[11]  W. Levick,et al.  Properties of rarely encountered types of ganglion cells in the cat's retina and on overall classification , 1974, The Journal of physiology.

[12]  R. Shapley,et al.  Linear and nonlinear spatial subunits in Y cat retinal ganglion cells. , 1976, The Journal of physiology.

[13]  R. Shapley,et al.  Quantitative analysis of retinal ganglion cell classifications. , 1976, The Journal of physiology.

[14]  Robert Shapley,et al.  A microcomputer-based visual stimulator , 1978 .