AbstractWhen rats learn a motor skill, synaptic potentials in the motor cortex are enhanced. A new study has revealed that this learning-induced enhancement limits further synaptic potentiation, but not synaptic depression. These findings support the view that activity-dependent synaptic plasticity is the brain's memory mechanism
The motor cortex and corticospinal tract are necessary for producing skilled movements. I use interm...
The present study examined the role of N-methyl-D-aspartic acid (NMDA) receptors in synaptic plastic...
AbstractPrimary motor cortex has a complex, interconnected anatomical and functional architecture wi...
AbstractWhen rats learn a motor skill, synaptic potentials in the motor cortex are enhanced. A new s...
When rats learn a motor skill, synaptic potentials in the motor cortex are enhanced. A new study has...
When rats learn a motor skill, synaptic potentials in the motor cortex are enhanced. A new study has...
AbstractA new twist to the relationship between synaptic plasticity and learning and memory is revea...
Abstract Changing the strength of connections between neurons is widely assumed to be the mechanism ...
Training rats in a complex olfactory discrimination task results in acquisition of “rule learning” ...
The remarkable versatility of the mammalian brain is made possible by a huge diversity of cellular p...
International audienceSpatio-temporal configurations of distributed activity in the brain is thought...
Several investigations suggest that actual and mental actions trigger similar neural substrates. Mot...
This paper discusses certain issues connected with the question of whether synaptic plasticity is in...
AbstractSynaptic plasticity in the cerebellar cortex is abolished and cerebellum-dependent motor lea...
Electrophysiological studies of the rodent hippocampus show that repeated seizure activity has a pro...
The motor cortex and corticospinal tract are necessary for producing skilled movements. I use interm...
The present study examined the role of N-methyl-D-aspartic acid (NMDA) receptors in synaptic plastic...
AbstractPrimary motor cortex has a complex, interconnected anatomical and functional architecture wi...
AbstractWhen rats learn a motor skill, synaptic potentials in the motor cortex are enhanced. A new s...
When rats learn a motor skill, synaptic potentials in the motor cortex are enhanced. A new study has...
When rats learn a motor skill, synaptic potentials in the motor cortex are enhanced. A new study has...
AbstractA new twist to the relationship between synaptic plasticity and learning and memory is revea...
Abstract Changing the strength of connections between neurons is widely assumed to be the mechanism ...
Training rats in a complex olfactory discrimination task results in acquisition of “rule learning” ...
The remarkable versatility of the mammalian brain is made possible by a huge diversity of cellular p...
International audienceSpatio-temporal configurations of distributed activity in the brain is thought...
Several investigations suggest that actual and mental actions trigger similar neural substrates. Mot...
This paper discusses certain issues connected with the question of whether synaptic plasticity is in...
AbstractSynaptic plasticity in the cerebellar cortex is abolished and cerebellum-dependent motor lea...
Electrophysiological studies of the rodent hippocampus show that repeated seizure activity has a pro...
The motor cortex and corticospinal tract are necessary for producing skilled movements. I use interm...
The present study examined the role of N-methyl-D-aspartic acid (NMDA) receptors in synaptic plastic...
AbstractPrimary motor cortex has a complex, interconnected anatomical and functional architecture wi...
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