| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 6267205 | Current Opinion in Neurobiology | 2011 | 7 Pages |
In the central nervous system, space is at a premium. This is especially true in the retina, where synapses, cells, and circuitry have evolved to maximize signal-processing capacity within a thin, optically transparent tissue. For example, at some retinal synapses, single presynaptic active zones contact multiple postsynaptic targets; some individual neurons perform completely different tasks depending on visual conditions, while others execute hundreds of circuit computations in parallel; and the retinal network adapts, at various levels, to the ever-changing visual world. Each of these features reflects efficient use of limited cellular resources to optimally encode visual information.
Research highlights⺠Receptor diversity encodes multiple information channels. ⺠Individual neurons perform different tasks within the retinal network. ⺠Local microcircuits enable parallel processing within single cells. ⺠Retinal synapses adapt to operate over a broad visual range.
