Neurons With Object-Centered Spatial Selectivity in Macaque SEF: Do They Represent Locations or Rules?

Center for the Neural Basis of Cognition, Mellon Institute, Pittsburgh, Pennsylvania 15213-2683 Tremblay, Léon, Sonya N. Gettner, and Carl R. Olson. Neurons With Object-Centered Spatial Selectivity in Macaque SEF: Do They Represent Locations or Rules?. J. Neurophysiol. 87: 333-350, 2002. In macaque...

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Published in:Journal of neurophysiology 2002-01, Vol.87 (1), p.333-350
Main Authors: Tremblay, Leon, Gettner, Sonya N, Olson, Carl R
Format: Article
Language:English
Subjects:
Animals
Behavior, Animal - physiology
Color
Color Perception - physiology
Cues
Eye Movements - physiology
Form Perception - physiology
Frontal Lobe - cytology
Frontal Lobe - physiology
Macaca mulatta
Male
Neurons - physiology
Photic Stimulation - methods
Reaction Time - physiology
Space Perception - physiology
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Summary:Center for the Neural Basis of Cognition, Mellon Institute, Pittsburgh, Pennsylvania 15213-2683 Tremblay, Léon, Sonya N. Gettner, and Carl R. Olson. Neurons With Object-Centered Spatial Selectivity in Macaque SEF: Do They Represent Locations or Rules?. J. Neurophysiol. 87: 333-350, 2002. In macaque monkeys performing a task that requires eye movements to the leftmost or rightmost of two dots in a horizontal array, some neurons in the supplementary eye field (SEF) fire differentially according to which side of the array is the target regardless of the array's location on the screen. We refer to these neurons as exhibiting selectivity for object-centered location. This form of selectivity might arise from involvement of the neurons in either of two processes: representing the locations of targets or representing the rules by which targets are selected. To distinguish between these possibilities, we monitored neuronal activity in the SEF of two monkeys performing a task that required the selection of targets by either an object-centered spatial rule or a color rule. On each trial, a sample array consisting of two side-by-side dots appeared; then a cue flashed on one dot; then the display vanished and a delay ensued. Next a target array consisting of two side-by-side dots appeared at an unpredictable location and another delay ensued; finally the monkey had to make an eye movement to one of the target dots. On some trials, the monkey had to select the dot on the same side as the cue (right or left). On other trials, he had to select the target of the same color as the cue (red or green). Neuronal activity robustly encoded the object-centered locations first of the cue and then of the target regardless of the whether the monkey was following a rule based on object-centered location or color. Neuronal activity was at most weakly affected by the type of rule the monkey was following (object-centered-location or color) or by the color of the cue and target (red or green). On trials involving a color rule, neuronal activity was moderately enhanced when the cue and target appeared on opposite sides of their respective arrays. We conclude that the general function of SEF neurons selective for object-centered location is to represent where the cue and target are in their respective arrays rather than to represent the rule for target selection.
ISSN:0022-3077
1522-1598
DOI:10.1152/jn.00356.2001