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The Journal of Neurophysiology Vol. 87 No. 4 April 2002, pp. 2104-2112
Copyright ©2002 by the American Physiological Society
Wellcome Department of Cognitive Neurology, University College London, London WC1E 6BT, United Kingdom
Moutoussis, K. and
S. Zeki.
Responses of Spectrally Selective Cells in Macaque Area V2 to
Wavelengths and Colors. J. Neurophysiol. 87: 2104-2112, 2002. We have recorded from
wavelength-selective cells in macaque monkey visual area V2, interposed
between areas V1 and V4 of the color-specialized pathway, to learn
whether their responses correlate with perceived colors or are
determined by the wavelength composition of light reflected from their
receptive fields. All the cells we recorded from were unselective for
the orientation and direction of motion of the stimulus, and all were
histologically identified to be in the thin cytochrome oxidase stripes.
Using multi-colored "Mondrian" scenes of the appropriate spatial
configuration, areas of different color were placed in the receptive
field of each cell and the entire scene illuminated by three
projectors, passing long-, middle-, and short-wave light, respectively,
in various combinations. Our results show that wavelength-selective
cells in V2 respond to an area of any color depending on whether or not
it reflects a sufficient amount of light of their preferred wavelength.
In addition, the responses of a third of the cells tested were also
influenced by the wavelength composition of their immediate surrounds,
thus signaling the result of a local spatial comparison with respect to
the amount of their preferred wavelength present. The responses of all
also depended on the sequence with which their receptive fields were
illuminated with light of the three different wavebands: cells were
activated when there was an increase (and inhibited when there was a
decrease) in the amount of their preferred wavelength with respect to
the other two; the temporal route taken was therefore a determining
factor, and, depending on it, cells would either respond or not to a
particular combination of wavelengths. We conclude that although
spatiotemporal wavelength comparisons are taking place in the
color-specialized subdivisions of area V2, the determination of
complete color-constant behavior at the neuronal level requires further
processing, in other areas.
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