Encoding Light Intensity by the Cone Photoreceptor Synapse

Overview

Journal Neuron

Publisher Cell Press

Specialty Neurology

Date 2005 Nov 23

PMID 16301173

Citations 44

Authors

Sue-Yeon Choi

Bart G Borghuis

Bart Borghuis

Ruth Rea

Edwin S Levitan

Peter Sterling

Richard H Kramer

Affiliations

Soon will be listed here.

Abstract

How cone synapses encode light intensity determines the precision of information transmission at the first synapse on the visual pathway. Although it is known that cone photoreceptors hyperpolarize to light over 4-5 log units of intensity, the relationship between light intensity and transmitter release at the cone synapse has not been determined. Here, we use two-photon microscopy to visualize release of the synaptic vesicle dye FM1-43 from cone terminals in the intact lizard retina, in response to different stimulus light intensities. We then employ electron microscopy to translate these measurements into vesicle release rates. We find that from darkness to bright light, release decreases from 49 to approximately 2 vesicles per 200 ms; therefore, cones compress their 10,000-fold operating range for phototransduction into a 25-fold range for synaptic vesicle release. Tonic release encodes ten distinguishable intensity levels, skewed to most finely represent bright light, assuming release obeys Poisson statistics.

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The Impact of Multivesicular Release on the Transmission of Sensory Information by Ribbon Synapses.

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Adhesion GPCR Latrophilin 3 regulates synaptic function of cone photoreceptors in a trans-synaptic manner.

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