Morphology and physiology of primate M- and P-cells
Morphology and physiology of primate M- and P-cells
Catarrhines and platyrrhines, the so-called Old- and New-World anthropoids, have different cone photopigments. Postreceptoral mechanisms must have coevolved with the receptors to provide trichromatic color vision, and so it is important to compare postreceptoral processes in these two primate groups, both from anatomical and physiological perspectives. The morphology of ganglion cells has been studied in the retina of catarrhines such as the diurnal and trichromatic Macaca, as well as platyrrhines such as the diurnal, di- or trichromatic Cebus, and the nocturnal, monochromatic Aotus. Diurnal platyrrhines, both di- and trichromats, have ganglion cell classes very similar to those found in catarrhines: M (parasol), P (midget), small-field bistratified, and several classes of wide-field ganglion cells. In the fovea of all diurnal anthropoids, P-cell dendritic trees contact single midget bipolars, which contact single cones. The Aotus retina has far fewer cones than diurnal species, but M- and P-cells are similar to those in diurnal primates although of larger size. As in diurnal anthropoids, in the Aotus, the majority of midget bipolar cells, found in the central 2 mm of eccentricity, receive input from a single cone and the sizes of their axon terminals match the sizes of P-cell dendritic fields in the same region. The visual responses of retinal ganglion cells of these species have been studied using single-unit electrophysiological recordings. Recordings from retinal ganglion cells in Cebus and Aotus showed that they have very similar properties as those in the macaque, except that P-cells of mono- and dichromatic animals lack cone opponency. Whatever the original role of the M- and P-cells was, they are likely to have evolved prior to the divergence of catarrhines and platyrrhines. M- and P-cell systems thus appear to be strongly conserved in the various primate species. The reasons for this may lie in the roles of these systems for both achromatic and chromatic vision.
21-46
Silveira, Luiz Carlos L.
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Saito, Cézar A.
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Lee, Barry B.
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Kremers, Jan
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Da Silva Filho, Manoel
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Kilavik, Bjørg E.
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Yamada, Elizabeth S.
b6893e12-2ccb-4d7c-a74a-aed5bc14fbf9
Perry, V. Hugh
8f29d36a-8e1f-4082-8700-09483bbaeae4
Silveira, Luiz Carlos L.
c0599953-6274-4a41-8f97-d6b37634581a
Saito, Cézar A.
8a59bbc0-a359-4a73-8044-7026175579ce
Lee, Barry B.
36711248-d22e-4c4f-9ad7-ac41b6ed3707
Kremers, Jan
c33fb99c-3951-4d0b-a776-3849ec7be4dd
Da Silva Filho, Manoel
6725478f-41a6-45a8-9a49-96f562b33c6c
Kilavik, Bjørg E.
5b7c3ed0-f204-417b-9417-44a5a00315d3
Yamada, Elizabeth S.
b6893e12-2ccb-4d7c-a74a-aed5bc14fbf9
Perry, V. Hugh
8f29d36a-8e1f-4082-8700-09483bbaeae4
Silveira, Luiz Carlos L., Saito, Cézar A., Lee, Barry B., Kremers, Jan, Da Silva Filho, Manoel, Kilavik, Bjørg E., Yamada, Elizabeth S. and Perry, V. Hugh
(2004)
Morphology and physiology of primate M- and P-cells.
Progress in Brain Research, 144, .
(doi:10.1016/S0079-6123(03)14402-0).
Abstract
Catarrhines and platyrrhines, the so-called Old- and New-World anthropoids, have different cone photopigments. Postreceptoral mechanisms must have coevolved with the receptors to provide trichromatic color vision, and so it is important to compare postreceptoral processes in these two primate groups, both from anatomical and physiological perspectives. The morphology of ganglion cells has been studied in the retina of catarrhines such as the diurnal and trichromatic Macaca, as well as platyrrhines such as the diurnal, di- or trichromatic Cebus, and the nocturnal, monochromatic Aotus. Diurnal platyrrhines, both di- and trichromats, have ganglion cell classes very similar to those found in catarrhines: M (parasol), P (midget), small-field bistratified, and several classes of wide-field ganglion cells. In the fovea of all diurnal anthropoids, P-cell dendritic trees contact single midget bipolars, which contact single cones. The Aotus retina has far fewer cones than diurnal species, but M- and P-cells are similar to those in diurnal primates although of larger size. As in diurnal anthropoids, in the Aotus, the majority of midget bipolar cells, found in the central 2 mm of eccentricity, receive input from a single cone and the sizes of their axon terminals match the sizes of P-cell dendritic fields in the same region. The visual responses of retinal ganglion cells of these species have been studied using single-unit electrophysiological recordings. Recordings from retinal ganglion cells in Cebus and Aotus showed that they have very similar properties as those in the macaque, except that P-cells of mono- and dichromatic animals lack cone opponency. Whatever the original role of the M- and P-cells was, they are likely to have evolved prior to the divergence of catarrhines and platyrrhines. M- and P-cell systems thus appear to be strongly conserved in the various primate species. The reasons for this may lie in the roles of these systems for both achromatic and chromatic vision.
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e-pub ahead of print date: 7 January 2004
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Local EPrints ID: 489340
URI: http://eprints.soton.ac.uk/id/eprint/489340
ISSN: 0079-6123
PURE UUID: cf1816bb-058e-43ad-b954-66bc1edcc366
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Date deposited: 22 Apr 2024 16:32
Last modified: 22 Apr 2024 16:32
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Author:
Luiz Carlos L. Silveira
Author:
Cézar A. Saito
Author:
Barry B. Lee
Author:
Jan Kremers
Author:
Manoel Da Silva Filho
Author:
Bjørg E. Kilavik
Author:
Elizabeth S. Yamada
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