Among diverse factors regulating excitatory synaptic transmission, the abundance of postsynaptic glutamate receptors figures prominently in molecular memory and learning-related synaptic plasticity. To allow for both long-term maintenance of synaptic transmission and acute changes in synaptic strength, the relative rates of glutamate receptor insertion and removal must be tightly regulated. Interactions with scaffolding proteins control the targeting and signaling properties of glutamate receptors within the postsynaptic membrane. In addition, extrasynaptic receptor populations control the equilibrium of receptor exchange at synapses and activate distinct signaling pathways involved in plasticity. Here, we review recent findings that have s...
The regulated trafficking of AMPA receptors (AMPARs) to synapses is thought to underlie the enhanced...
Receptors are concentrated in the postsynaptic membrane but can enter and exit synapses rapidly duri...
Synaptic plasticity represents the long lasting activity-related strengthening or weakening of synap...
Among diverse factors regulating excitatory synaptic transmission, the abundance of postsynaptic glu...
AbstractExcitatory synapses in the CNS release glutamate, which acts primarily on two types of ionot...
SummarySynaptic activity regulates the postsynaptic accumulation of AMPA receptors over timescales r...
The plethora of functions of glutamate in the brain are mediated by the complementary actions of ion...
Glutamate receptors are the most abundant excitatory neurotransmitter receptors in the brain, respon...
Activation of several subtypes of glutamate receptors contributes to changes in postsynaptic calcium...
AbstractGlutamatergic transmission at mossy fiber (MF) synapses on CA3 pyramidal neurons in the hipp...
Trafficking of AMPA receptors in and out of synapses is crucial for synaptic plasticity. Previous st...
Abstract The speed and reliability of computation in neural circuits depends on fast chemical transm...
AbstractActions of the excitatory neurotransmitter glutamate inside and outside the synaptic cleft d...
Mechanisms regulating lateral diffusion and positioning of glutamate receptors within the postsynapt...
Presynaptic metabotropic glutamate receptors (mGluRs) are essential for activity-dependent modulatio...
The regulated trafficking of AMPA receptors (AMPARs) to synapses is thought to underlie the enhanced...
Receptors are concentrated in the postsynaptic membrane but can enter and exit synapses rapidly duri...
Synaptic plasticity represents the long lasting activity-related strengthening or weakening of synap...
Among diverse factors regulating excitatory synaptic transmission, the abundance of postsynaptic glu...
AbstractExcitatory synapses in the CNS release glutamate, which acts primarily on two types of ionot...
SummarySynaptic activity regulates the postsynaptic accumulation of AMPA receptors over timescales r...
The plethora of functions of glutamate in the brain are mediated by the complementary actions of ion...
Glutamate receptors are the most abundant excitatory neurotransmitter receptors in the brain, respon...
Activation of several subtypes of glutamate receptors contributes to changes in postsynaptic calcium...
AbstractGlutamatergic transmission at mossy fiber (MF) synapses on CA3 pyramidal neurons in the hipp...
Trafficking of AMPA receptors in and out of synapses is crucial for synaptic plasticity. Previous st...
Abstract The speed and reliability of computation in neural circuits depends on fast chemical transm...
AbstractActions of the excitatory neurotransmitter glutamate inside and outside the synaptic cleft d...
Mechanisms regulating lateral diffusion and positioning of glutamate receptors within the postsynapt...
Presynaptic metabotropic glutamate receptors (mGluRs) are essential for activity-dependent modulatio...
The regulated trafficking of AMPA receptors (AMPARs) to synapses is thought to underlie the enhanced...
Receptors are concentrated in the postsynaptic membrane but can enter and exit synapses rapidly duri...
Synaptic plasticity represents the long lasting activity-related strengthening or weakening of synap...