Activity-dependent alterations in the strength of an individual glutamatergic synapse are often accompanied by changes in the size and shape of the postsynaptic terminal. Two studies in this issue of Neuron, Meyer et al. (2014) and Bosch et al. (2014), shed new light on the mechanisms and signaling pathways underlying structural long-term potentiation
SummaryLong-term potentiation (LTP) is accompanied by dendritic spine growth and changes in the comp...
AbstractSynaptic actin has now been shown to change shape in response to stimulation. The cytoskelet...
The changes in synaptic morphology and receptor content that underlie neural plasticity are poorly u...
Activity-dependent alterations in the strength of an individual glutamatergic synapse are often acco...
SummaryHomeostatic synaptic scaling adjusts a neuron's excitatory synaptic strengths up or down to c...
Long-term potentiation (LTP), a cellular model of learning and memory, produces both an enhancement ...
SummarySubsynaptic structures such as bouton, active zone, postsynaptic density (PSD) and dendritic ...
Subsynaptic structures such as bouton, active zone, postsynaptic density (PSD) and dendritic spine, ...
Synaptic plasticity is a cellular model for learning and memory. However, the expression mechanisms ...
Subsynaptic structures such as bouton, active zone, postsynaptic density (PSD) and dendritic spine, ...
AbstractRecent studies suggest that the strength of synapses in the brain may change in a step-wise ...
High-frequency stimulation of excitatory synapses in many regions of the brain triggers a lasting in...
AbstractUse-dependent synapse remodeling is thought to provide a cellular mechanism for encoding dur...
The regulation of synaptic strength is thought to underlie the complex emergent dynamics of neural n...
Synaptic plasticity or long-lasting alterations in the effi cacy of synaptic connections between two...
SummaryLong-term potentiation (LTP) is accompanied by dendritic spine growth and changes in the comp...
AbstractSynaptic actin has now been shown to change shape in response to stimulation. The cytoskelet...
The changes in synaptic morphology and receptor content that underlie neural plasticity are poorly u...
Activity-dependent alterations in the strength of an individual glutamatergic synapse are often acco...
SummaryHomeostatic synaptic scaling adjusts a neuron's excitatory synaptic strengths up or down to c...
Long-term potentiation (LTP), a cellular model of learning and memory, produces both an enhancement ...
SummarySubsynaptic structures such as bouton, active zone, postsynaptic density (PSD) and dendritic ...
Subsynaptic structures such as bouton, active zone, postsynaptic density (PSD) and dendritic spine, ...
Synaptic plasticity is a cellular model for learning and memory. However, the expression mechanisms ...
Subsynaptic structures such as bouton, active zone, postsynaptic density (PSD) and dendritic spine, ...
AbstractRecent studies suggest that the strength of synapses in the brain may change in a step-wise ...
High-frequency stimulation of excitatory synapses in many regions of the brain triggers a lasting in...
AbstractUse-dependent synapse remodeling is thought to provide a cellular mechanism for encoding dur...
The regulation of synaptic strength is thought to underlie the complex emergent dynamics of neural n...
Synaptic plasticity or long-lasting alterations in the effi cacy of synaptic connections between two...
SummaryLong-term potentiation (LTP) is accompanied by dendritic spine growth and changes in the comp...
AbstractSynaptic actin has now been shown to change shape in response to stimulation. The cytoskelet...
The changes in synaptic morphology and receptor content that underlie neural plasticity are poorly u...
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