BACKGROUND: Synaptic plasticity underlies many aspect of learning memory and development. The properties of synaptic plasticity can change as a function of previous plasticity and previous activation of synapses, a phenomenon called metaplasticity. Synaptic plasticity not only changes the functional connectivity between neurons but in some cases produces a structural change in synaptic spines; a change thought to form a basis for this observed plasticity. Here we examine to what extent structural plasticity of spines can be a cause for metaplasticity. This study is motivated by the observation that structural changes in spines are likely to affect the calcium dynamics in spines. Since calcium dynamics determine the sign and magnitude of syn...
At glutamatergic synapses, induction of associative synaptic plasticity requires time-correlated pre...
High-frequency stimulation of excitatory synapses in many regions of the brain triggers a lasting in...
Open access article. Available online from the publisher via http://dx.doi.org/10.3389/fnsyn.2010.00...
BACKGROUND: Synaptic plasticity underlies many aspect of learning memory and development. The proper...
Synaptic plasticity underlies many aspect of learning memory and development. The properties of syna...
SummaryOptimal function of neuronal networks requires interplay between rapid forms of Hebbian plast...
AbstractThe results of expressing a constitutive form of a prominent synaptic kinase in transgenic m...
Copyright: © 2012 Morrison. This is an open-access article distributed under the terms of the Creat...
Synaptic plasticity or long-lasting alterations in the effi cacy of synaptic connections between two...
A unified, biophysically motivated Calcium-Dependent Learning model has been shown to account for va...
Dendritic spines are small protrusions from dendritic shafts that contain the postsynaptic sites of ...
Synaptic plasticity is believed to represent the neural correlate of mammalian learning and memory f...
AbstractDendritic spines on pyramidal neurons receive the vast majority of excitatory input and are ...
Metaplasticity refers to an activity-dependent regulation of the plastic state of neurons. In this i...
The notion that changes in synaptic efficacy underlie learning and memory processes is now widely ac...
At glutamatergic synapses, induction of associative synaptic plasticity requires time-correlated pre...
High-frequency stimulation of excitatory synapses in many regions of the brain triggers a lasting in...
Open access article. Available online from the publisher via http://dx.doi.org/10.3389/fnsyn.2010.00...
BACKGROUND: Synaptic plasticity underlies many aspect of learning memory and development. The proper...
Synaptic plasticity underlies many aspect of learning memory and development. The properties of syna...
SummaryOptimal function of neuronal networks requires interplay between rapid forms of Hebbian plast...
AbstractThe results of expressing a constitutive form of a prominent synaptic kinase in transgenic m...
Copyright: © 2012 Morrison. This is an open-access article distributed under the terms of the Creat...
Synaptic plasticity or long-lasting alterations in the effi cacy of synaptic connections between two...
A unified, biophysically motivated Calcium-Dependent Learning model has been shown to account for va...
Dendritic spines are small protrusions from dendritic shafts that contain the postsynaptic sites of ...
Synaptic plasticity is believed to represent the neural correlate of mammalian learning and memory f...
AbstractDendritic spines on pyramidal neurons receive the vast majority of excitatory input and are ...
Metaplasticity refers to an activity-dependent regulation of the plastic state of neurons. In this i...
The notion that changes in synaptic efficacy underlie learning and memory processes is now widely ac...
At glutamatergic synapses, induction of associative synaptic plasticity requires time-correlated pre...
High-frequency stimulation of excitatory synapses in many regions of the brain triggers a lasting in...
Open access article. Available online from the publisher via http://dx.doi.org/10.3389/fnsyn.2010.00...