Highly Selective Receptive Fields in Mouse Visual Cortex
W. M. Keck Foundation · University of California, San Francisco
Abstract
Genetic methods available in mice are likely to be powerful tools in dissecting cortical circuits. However, the visual cortex, in which sensory coding has been most thoroughly studied in other species, has essentially been neglected in mice perhaps because of their poor spatial acuity and the lack of columnar organization such as orientation maps. We have now applied quantitative methods to characterize visual receptive fields in mouse primary visual cortex V1 by making extracellular recordings with silicon electrode arrays in anesthetized mice. We used current source density analysis to determine laminar location and spike waveforms to discriminate putative excitatory and inhibitory units. We find that,…
Citation impact
- FWCI
- 12.20
- Percentile
- 100%
- References
- 100
Authors
2Topics & keywords
- Receptive field
- Visual cortex
- Neuroscience
- Binocular neurons
- Surround suppression
- Orientation column
- Stimulus (psychology)
- Sensory system
- Reduced inequalities