Excitatory synapses that use the neurotransmitter glutamate are highly dynamic, constantly changing their character in an activity-dependent manner. In this issue of Neuron, Penn et al. (2012) describe a novel mechanism that changes the fidelity of glutamate signaling to maintain homeostatic synaptic plasticity
Regulation of neurotransmitter receptor localization is critical for synaptic function and plasticit...
Activity-dependent alterations in the strength of an individual glutamatergic synapse are often acco...
The strength of a synaptic connection—that is, the likelihood that a presynaptic stimulus will lead ...
Excitatory synapses that use the neurotransmitter glutamate are highly dynamic, constantly changing ...
Summary: We have interrogated the synaptic dialog that enables the bi-directional, homeostatic contr...
The ability of neurons and circuits to maintain their excitability and activity levels within the ap...
In this issue of Neuron, Orr et al.1 demonstrate a detailed molecular cascade that drives presynapti...
Activity within neural circuits shapes the synaptic properties of component neurons in a manner that...
The ability of neurons and circuits to maintain their excitability and activity levels within the ap...
The brain is a tremendously complex organ that consists of an intricate network of billions of nerve...
Excitatory neurons in the CNS receive thousands of synaptic contacts from other excitatory neurons. ...
Glutamate signaling regulates neuronal activity and synaptic plasticity, which underlies learning an...
Presynaptic homeostatic plasticity (PHP) stabilizes synaptic transmission by counteracting impaired ...
Sustained alterations in neuron activity elicit compensatory changes in synaptic function, a form of...
UnrestrictedGlutamate is the major excitatory neurotransmitter in the mammalian central nervous syst...
Regulation of neurotransmitter receptor localization is critical for synaptic function and plasticit...
Activity-dependent alterations in the strength of an individual glutamatergic synapse are often acco...
The strength of a synaptic connection—that is, the likelihood that a presynaptic stimulus will lead ...
Excitatory synapses that use the neurotransmitter glutamate are highly dynamic, constantly changing ...
Summary: We have interrogated the synaptic dialog that enables the bi-directional, homeostatic contr...
The ability of neurons and circuits to maintain their excitability and activity levels within the ap...
In this issue of Neuron, Orr et al.1 demonstrate a detailed molecular cascade that drives presynapti...
Activity within neural circuits shapes the synaptic properties of component neurons in a manner that...
The ability of neurons and circuits to maintain their excitability and activity levels within the ap...
The brain is a tremendously complex organ that consists of an intricate network of billions of nerve...
Excitatory neurons in the CNS receive thousands of synaptic contacts from other excitatory neurons. ...
Glutamate signaling regulates neuronal activity and synaptic plasticity, which underlies learning an...
Presynaptic homeostatic plasticity (PHP) stabilizes synaptic transmission by counteracting impaired ...
Sustained alterations in neuron activity elicit compensatory changes in synaptic function, a form of...
UnrestrictedGlutamate is the major excitatory neurotransmitter in the mammalian central nervous syst...
Regulation of neurotransmitter receptor localization is critical for synaptic function and plasticit...
Activity-dependent alterations in the strength of an individual glutamatergic synapse are often acco...
The strength of a synaptic connection—that is, the likelihood that a presynaptic stimulus will lead ...
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