Publication | Open Access
Two mutations preventing PDZ–protein interactions of GluR1 have opposite effects on synaptic plasticity
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Citations
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References
2006
Year
Opposite EffectsSynaptic TransmissionMolecular BiologyPdz–protein InteractionsRegulated TraffickingNeurotransmissionStructural PlasticitySynaptic SignalingSynaptic NeuroscienceCell SignalingMolecular PhysiologyCamkii-induced Synaptic PlasticityG Protein-coupled ReceptorCell BiologySynaptic PlasticityNeurodegenerative DiseasesSignal TransductionNeuroscienceSynaptic DysfunctionMolecular NeurobiologySystems BiologyMedicine
The regulated trafficking of GluR1 contributes significantly to synaptic plasticity, but studies addressing the function of the GluR1 C-terminal PDZ-ligand domain in this process have produced conflicting results. Here, we resolve this conflict by showing that apparently similar C-terminal mutations of the GluR1 PDZ-ligand domain result in opposite physiological phenotypes during activity- and CamKII-induced synaptic plasticity.
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