Add to ORKGClassical conditioning produces frequency-specific plasticity of receptive fields (RFs) of single neurons in cat auditory cortex (Diamond & Weinberger, 1986). In this article we show that although plasticity may be observed during both training trials and determination of RFs, it is usually expressed in a qualitatively different form (e.g., decreased response during conditioning vs. increased response to this same conditioned stimulus in the postconditioning RF). This differential expression of learning-induced plasticity provides evidence for a role of context in neurophysiological mechanisms of learning in auditory cortex. A model of cortical neurons functioning within a mosaic of influences is presented. The Functional Mosaic model views...
The functional organization of the sensory cortex is constructed to process sensory information base...
The primary sensory cortex is positioned at a confluence of bottom-up dedicated sensory inputs and t...
Receptive fields of sensory cortical neurons are plastic, changing in response to alterations of neu...
Classical conditioning produces frequency-specific plasticity of receptive fields (RFs) of single ne...
To determine if learning-induced changes in the response of auditory cortical neurons to a condition...
To determine if learning-induced changes in the response of auditory cortical neurons to a condition...
Historically, the primary auditory cortex has been largely ignored as a substrate of auditory memory...
Neural representation in the auditory cortex is rapidly modulated by both top-down attention and bot...
Classical views on the functional organization of the cerebral cortex portray primary sensory region...
Associative learning produces conditioned stimulus (CS)-specific plasticity of frequency recep-tive ...
Abstract The molecular mechanisms underlying the temporal plasticity (temporal tuning) of cortical c...
The functional organization of the sensory cortex is constructed to process sensory information base...
Recorded the discharges of 22 single neurons in the secondary auditory cortical field (AII) during a...
Recorded the discharges of 22 single neurons in the secondary auditory cortical field (AII) during a...
Recorded the discharges of 22 single neurons in the secondary auditory cortical field (AII) during a...
The functional organization of the sensory cortex is constructed to process sensory information base...
The primary sensory cortex is positioned at a confluence of bottom-up dedicated sensory inputs and t...
Receptive fields of sensory cortical neurons are plastic, changing in response to alterations of neu...
Classical conditioning produces frequency-specific plasticity of receptive fields (RFs) of single ne...
To determine if learning-induced changes in the response of auditory cortical neurons to a condition...
To determine if learning-induced changes in the response of auditory cortical neurons to a condition...
Historically, the primary auditory cortex has been largely ignored as a substrate of auditory memory...
Neural representation in the auditory cortex is rapidly modulated by both top-down attention and bot...
Classical views on the functional organization of the cerebral cortex portray primary sensory region...
Associative learning produces conditioned stimulus (CS)-specific plasticity of frequency recep-tive ...
Abstract The molecular mechanisms underlying the temporal plasticity (temporal tuning) of cortical c...
The functional organization of the sensory cortex is constructed to process sensory information base...
Recorded the discharges of 22 single neurons in the secondary auditory cortical field (AII) during a...
Recorded the discharges of 22 single neurons in the secondary auditory cortical field (AII) during a...
Recorded the discharges of 22 single neurons in the secondary auditory cortical field (AII) during a...
The functional organization of the sensory cortex is constructed to process sensory information base...
The primary sensory cortex is positioned at a confluence of bottom-up dedicated sensory inputs and t...
Receptive fields of sensory cortical neurons are plastic, changing in response to alterations of neu...