Lack of patchy horizontal connectivity in primary visual cortex of a mammal without orientation maps
- Authors
- Van Hooser, Stephen D.; Heimel, J. Alexander; Chung, Sooyoung; Nelson, Sacha B.
- Issue Date
- 2006-07-19
- Publisher
- SOC NEUROSCIENCE
- Citation
- JOURNAL OF NEUROSCIENCE, v.26, no.29, pp.7680 - 7692
- Abstract
- In the cerebral cortex of mammals, horizontal connections link cells up to several millimeters apart. In primary visual cortex (V1) of mammals with orientation maps, horizontal connections ramify in periodic patches across the cortical surface, connecting cells with similar orientation preferences. Rodents have orientation-selective cells but lack orientation maps, raising questions about relationships of horizontal connections to functional maps and receptive field properties. To address these questions, we studied anatomy of horizontal connections and characterized horizontal functional interactions in V1 of the gray squirrel, a highly visual rodent. Long-range intrinsic connections in squirrel V1 extended 1-2 mm but were not patchy or periodic. This result suggests that periodic and patchy connectivity is not a universal organizing principle of cortex, and the existence of patchy and periodic connectivity and functional maps may be linked. In multielectrode and intracellular recordings, we found evidence of unselective local interactions among cells, similar to pinwheel centers of carnivores. These data suggest that, in mammals with and without orientation maps, local connections link near neighbors without regard to orientation selectivity. In single-unit recordings, we found length-summing and end-stopped cells that were similar to those in other mammals. Length-summing cell surrounds were orientation selective, whereas surrounds of end-stopped cells were not. Receptive field response classes are quite similar across mammals, and therefore patchy and columnar connectivity may not be essential for these properties.
- Keywords
- RECEPTIVE-FIELD PROPERTIES; CAT STRIATE CORTEX; SQUIRREL SCIURUS-CAROLINENSIS; CROSS-CORRELATION ANALYSIS; NEURONAL SPIKE TRAINS; INTRINSIC CONNECTIONS; FUNCTIONAL ARCHITECTURE; LAMINAR ORGANIZATION; MACAQUE MONKEY; IN-VIVO; RECEPTIVE-FIELD PROPERTIES; CAT STRIATE CORTEX; SQUIRREL SCIURUS-CAROLINENSIS; CROSS-CORRELATION ANALYSIS; NEURONAL SPIKE TRAINS; INTRINSIC CONNECTIONS; FUNCTIONAL ARCHITECTURE; LAMINAR ORGANIZATION; MACAQUE MONKEY; IN-VIVO; orientation maps; visual cortex; squirrel; functional architecture; horizontal connections; retrograde labeling
- ISSN
- 0270-6474
- URI
- https://pubs.kist.re.kr/handle/201004/135327
- DOI
- 10.1523/JNEUROSCI.0108-06.2006
- Appears in Collections:
- KIST Article > 2006
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