Litcius/Paper detail

Presynaptic Proteins and Their Roles in Visual Processing by the Retina

Wallace B. Thoreson, David Zenisek

2024Annual Review of Vision Science10 citationsDOIOpen Access PDF

Abstract

The sense of vision begins in the retina, where light is detected and processed through a complex series of synaptic connections into meaningful information relayed to the brain via retinal ganglion cells. Light responses begin as tonic and graded signals in photoreceptors, later emerging from the retina as a series of spikes from ganglion cells. Processing by the retina extracts critical features of the visual world, including spatial frequency, temporal frequency, motion direction, color, contrast, and luminance. To achieve this, the retina has evolved specialized and unique synapse types. These include the ribbon synapses of photoreceptors and bipolar cells, the dendritic synapses of amacrine and horizontal cells, and unconventional synaptic feedback from horizontal cells to photoreceptors. We review these unique synapses in the retina with a focus on the presynaptic molecules and physiological properties that shape their capabilities.

Topics & Concepts

RetinaNeuroscienceRibbon synapseSynapseIntrinsically photosensitive retinal ganglion cellsBiologyRetinal wavesTonic (physiology)GanglionRetinalRetinal ganglion cellSynaptic vesicleGeneticsMembraneBiochemistryVesicleRetinal Development and DisordersPhotoreceptor and optogenetics researchNeuroscience and Neuropharmacology Research