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Distinct population codes for attention in the absence and presence of visual stimulation
by
Snyder, Adam C.
, Smith, Matthew A.
, Yu, Byron M.
in
631/378/116/2394
/ 631/378/2649/1310
/ Animals
/ Attention - physiology
/ Attention task
/ Brain
/ Humanities and Social Sciences
/ Macaca mulatta - physiology
/ Male
/ Monkeys
/ multidisciplinary
/ Neuromodulation
/ Neurons
/ Neurons - physiology
/ Photic Stimulation
/ Science
/ Science (multidisciplinary)
/ Stimulation
/ Visual Cortex - physiology
/ Visual stimuli
2018
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Distinct population codes for attention in the absence and presence of visual stimulation
by
Snyder, Adam C.
, Smith, Matthew A.
, Yu, Byron M.
in
631/378/116/2394
/ 631/378/2649/1310
/ Animals
/ Attention - physiology
/ Attention task
/ Brain
/ Humanities and Social Sciences
/ Macaca mulatta - physiology
/ Male
/ Monkeys
/ multidisciplinary
/ Neuromodulation
/ Neurons
/ Neurons - physiology
/ Photic Stimulation
/ Science
/ Science (multidisciplinary)
/ Stimulation
/ Visual Cortex - physiology
/ Visual stimuli
2018
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Do you wish to request the book?
Distinct population codes for attention in the absence and presence of visual stimulation
by
Snyder, Adam C.
, Smith, Matthew A.
, Yu, Byron M.
in
631/378/116/2394
/ 631/378/2649/1310
/ Animals
/ Attention - physiology
/ Attention task
/ Brain
/ Humanities and Social Sciences
/ Macaca mulatta - physiology
/ Male
/ Monkeys
/ multidisciplinary
/ Neuromodulation
/ Neurons
/ Neurons - physiology
/ Photic Stimulation
/ Science
/ Science (multidisciplinary)
/ Stimulation
/ Visual Cortex - physiology
/ Visual stimuli
2018
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Distinct population codes for attention in the absence and presence of visual stimulation
Journal Article
Distinct population codes for attention in the absence and presence of visual stimulation
2018
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Overview
Visual neurons respond more vigorously to an attended stimulus than an unattended one. How the brain prepares for response gain in anticipation of that stimulus is not well understood. One prominent proposal is that anticipation is characterized by gain-like modulations of spontaneous activity similar to gains in stimulus responses. Here we test an alternative idea: anticipation is characterized by a mixture of both increases and decreases of spontaneous firing rates. Such a strategy would be adaptive as it supports a simple linear scheme for disentangling internal, modulatory signals from external, sensory inputs. We recorded populations of V4 neurons in monkeys performing an attention task, and found that attention states are signaled by different mixtures of neurons across the population in the presence or absence of a stimulus. Our findings support a move from a stimulation-invariant account of anticipation towards a richer view of attentional modulation in a diverse neuronal population.
Attention affects stimulus response gain, but its impact without sensory drive is less known. Here, the authors show that attention is coded diversely in a population and is distinct between unstimulated and stimulated contexts, providing a contrast to normalized gain models of attention.
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