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Proc Natl Acad Sci U S A. 1997 May 13;94(10):5411-6.

The structure and precision of retinal spike trains.

Author information

1
Molecular and Cellular Biology Department, Harvard University, Cambridge, MA 02138, USA. berry@biosun.harvard.edu

Abstract

Assessing the reliability of neuronal spike trains is fundamental to an understanding of the neural code. We measured the reproducibility of retinal responses to repeated visual stimuli. In both tiger salamander and rabbit, the retinal ganglion cells responded to random flicker with discrete, brief periods of firing. For any given cell, these firing events covered only a small fraction of the total stimulus time, often less than 5%. Firing events were very reproducible from trial to trial: the timing jitter of individual spikes was as low as 1 msec, and the standard deviation in spike count was often less than 0.5 spikes. Comparing the precision of spike timing to that of the spike count showed that the timing of a firing event conveyed several times more visual information than its spike count. This sparseness and precision were general characteristics of ganglion cell responses, maintained over the broad ensemble of stimulus waveforms produced by random flicker, and over a range of contrasts. Thus, the responses of retinal ganglion cells are not properly described by a firing probability that varies continuously with the stimulus. Instead, these neurons elicit discrete firing events that may be the fundamental coding symbols in retinal spike trains.

PMID:
9144251
PMCID:
PMC24692
DOI:
10.1073/pnas.94.10.5411
[Indexed for MEDLINE]
Free PMC Article

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