AI Article Synopsis
- On-Off direction-selective ganglion cells (On-Off DSGCs) in the mammalian retina rely on both excitation and inhibition to shape their receptive field properties, particularly how they respond to motion.
- Researchers discovered that On-Off DSGCs possess a spatially shifted glutamatergic receptive field, impacting their response to motion that is interrupted.
- The study suggests that these cells use different mechanisms to process visual information under various conditions, enabling them to effectively signal the movement of objects in complex visual scenarios.
Article Abstract
Spatially distributed excitation and inhibition collectively shape a visual neuron's receptive field (RF) properties. In the direction-selective circuit of the mammalian retina, the role of strong null-direction inhibition of On-Off direction-selective ganglion cells (On-Off DSGCs) on their direction selectivity is well-studied. However, how excitatory inputs influence the On-Off DSGC's visual response is underexplored. Here, we report that On-Off DSGCs have a spatially displaced glutamatergic receptive field along their horizontal preferred-null motion axes. This displaced receptive field contributes to DSGC null-direction spiking during interrupted motion trajectories. Theoretical analyses indicate that population responses during interrupted motion may help populations of On-Off DSGCs signal the spatial location of moving objects in complex, naturalistic visual environments. Our study highlights that the direction-selective circuit exploits separate sets of mechanisms under different stimulus conditions, and these mechanisms may help encode multiple visual features.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8211448 | PMC |
| http://dx.doi.org/10.7554/eLife.68181 | DOI Listing |
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