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Unusual Physiological Properties of Smooth Monostratified Ganglion Cell Types in Primate Retina.


ABSTRACT: The functions of the diverse retinal ganglion cell types in primates and the parallel visual pathways they initiate remain poorly understood. Here, unusual physiological and computational properties of the ON and OFF smooth monostratified ganglion cells are explored. Large-scale multi-electrode recordings from 48 macaque retinas revealed that these cells exhibit irregular receptive field structure composed of spatially segregated hotspots, quite different from the classic center-surround model of retinal receptive fields. Surprisingly, visual stimulation of different hotspots in the same cell produced spikes with subtly different spatiotemporal voltage signatures, consistent with a dendritic contribution to hotspot structure. Targeted visual stimulation and computational inference demonstrated strong nonlinear subunit properties associated with each hotspot, supporting a model in which the hotspots apply nonlinearities at a larger spatial scale than bipolar cells. These findings reveal a previously unreported nonlinear mechanism in the output of the primate retina that contributes to signaling spatial information.

SUBMITTER: Rhoades CE 

PROVIDER: S-EPMC6817368 | biostudies-literature | 2019 Aug

REPOSITORIES: biostudies-literature

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Unusual Physiological Properties of Smooth Monostratified Ganglion Cell Types in Primate Retina.

Rhoades Colleen E CE   Shah Nishal P NP   Manookin Michael B MB   Brackbill Nora N   Kling Alexandra A   Goetz Georges G   Sher Alexander A   Litke Alan M AM   Chichilnisky E J EJ  

Neuron 20190618 4


The functions of the diverse retinal ganglion cell types in primates and the parallel visual pathways they initiate remain poorly understood. Here, unusual physiological and computational properties of the ON and OFF smooth monostratified ganglion cells are explored. Large-scale multi-electrode recordings from 48 macaque retinas revealed that these cells exhibit irregular receptive field structure composed of spatially segregated hotspots, quite different from the classic center-surround model o  ...[more]

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