Biological Cybernetics
MS :
02.98
The
potential coding utility
of intercell
cross-correlations in the retina
Michael W. Levine
Department of Psychology,
Abstract
The
action potentials (impulses) produced by pairs of neighboring retinal ganglion
cells often show a tendency either to fire in close temporal synchrony, or to
avoid temporal synchrony. This cross-correlation (a rate of “coincidences” that
differs from that expected by chance) has been exploited as a window into
retinal processing, but its possible functional significance has proven
elusive. Previous work has failed to show that the coincidences serve as a
direct code for visual stimuli. In this analysis it is
shown that neither do the coincidences serve as a key for reducing variability
nor as a key for improving the coding by the individual cells. The residual
impulse trains (trains with coincidences deleted) are more variable than the
raw impulse trains, and provide an inferior coding than that of the raw impulse
trains. There is negative correlation between the firing rate of the residual
impulse trains and that of the coincidence impulse trains, which is consistent
with the lower variance of the raw impulse trains. There is no consistent
cross-correlation between the rates of residual impulse trains of cells in
pairs showing cross-correlation; however, it is found that this observation
does not discriminate among models for generating coincidences.