Synaptic Physiology: Input Specificity, Output Targeting, and Short-Term Dynami…

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Synaptic Physiology: Input Specificity, Output Targeting, and Short-Term Dynamics

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  • 1Citationpaper:paper-a9bffd9b9fbbThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 10Citationpaper:paper-c803cdbd5cbdThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference0 The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference1 The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...

  • 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference2 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference3. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference4 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference5. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference6 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference7. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference8 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 2Citationpaper:paper-fedd0f6b7f78The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference9. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference0 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference1. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference2 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference3. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference4 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference5. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference6 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference7. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference8 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 3Citationpaper:paper-53c8505de50fThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference9. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference0 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference1. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference2 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference3. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference4 PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference5. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...

  • 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference6 The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference7. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...

  • 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference8 The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification 4Citationpaper:paper-6cb24fdb55a4The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference9. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...

  • 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference0 The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference1. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...

  • 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference2 The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference3. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...

  • 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference4 The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference5. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...

  • 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference6 The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference7. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...

  • 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference8 The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification 5Citationpaper:paper-ad1611a9283aThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference9. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...

  • 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference0 Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference1. Optogenetic in...

  • 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference2 Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference3. Optogenetic in...

  • 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference4 Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference5. Optogenetic in...

  • 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference6 Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference7. Optogenetic in...

  • 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference8 Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile 6Citationpaper:paper-21b4420ef885The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference9. Optogenetic in...

  • 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference0 Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference1. Optogenetic in...

  • 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference2 ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference3; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...

  • 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference4 ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference5; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...

  • 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference6 ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference7; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...

  • 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference8 ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses 7Citationpaper:paper-82b2fc46b739The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference9; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...

  • 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference0 ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference1; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...

  • 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference2 A recently characterized thalamocortical pathway reveals that VIP- and SST-expressing interneurons also receive functional thalamic innervation 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference3, broadening the traditional view that thalamocortical feedforward inhibition operates exclusively through PV cells. Nevertheless, the combination of convergent thalamic drive, CP-AMPAR-mediated fast excitation, and precisely targeted recurrent inpu...

  • 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference4 A recently characterized thalamocortical pathway reveals that VIP- and SST-expressing interneurons also receive functional thalamic innervation 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference5, broadening the traditional view that thalamocortical feedforward inhibition operates exclusively through PV cells. Nevertheless, the combination of convergent thalamic drive, CP-AMPAR-mediated fast excitation, and precisely targeted recurrent inpu...

  • 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference6 A recently characterized thalamocortical pathway reveals that VIP- and SST-expressing interneurons also receive functional thalamic innervation 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference7, broadening the traditional view that thalamocortical feedforward inhibition operates exclusively through PV cells. Nevertheless, the combination of convergent thalamic drive, CP-AMPAR-mediated fast excitation, and precisely targeted recurrent inpu...

  • 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference8 A recently characterized thalamocortical pathway reveals that VIP- and SST-expressing interneurons also receive functional thalamic innervation 8Citationpaper:paper-f65eae5e6c56The fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference9, broadening the traditional view that thalamocortical feedforward inhibition operates exclusively through PV cells. Nevertheless, the combination of convergent thalamic drive, CP-AMPAR-mediated fast excitation, and precisely targeted recurrent inpu...

  • 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference0 The defining output feature of PV basket cells is perisomatic inhibition: GABAergic synapses concentrated on the soma and proximal dendrites of target neurons, where they exert maximal control over action potential generation 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference1. The efficacy of these inhibitory synapses profoundly affects neural network processing and overall neuronal function [...

  • 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference2 The defining output feature of PV basket cells is perisomatic inhibition: GABAergic synapses concentrated on the soma and proximal dendrites of target neurons, where they exert maximal control over action potential generation 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference3. The efficacy of these inhibitory synapses profoundly affects neural network processing and overall neuronal function [...

  • 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference4 The defining output feature of PV basket cells is perisomatic inhibition: GABAergic synapses concentrated on the soma and proximal dendrites of target neurons, where they exert maximal control over action potential generation 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference5. The efficacy of these inhibitory synapses profoundly affects neural network processing and overall neuronal function [...

  • 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference6 The defining output feature of PV basket cells is perisomatic inhibition: GABAergic synapses concentrated on the soma and proximal dendrites of target neurons, where they exert maximal control over action potential generation 9Citationpaper:paper-6634769ed2abThe fast-spiking phenotype characterized in {ref}sec-intrinsic-electrophysiology would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...content/06_synaptic_physiology.md:line 6Open reference7. The efficacy of these inhibitory synapses profoundly affects neural network processing and overall neuronal function [...

  • ... 172 additional anchors in refs_json

References

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  2. [Klausberger2005complementary] paper:paper-fedd0f6b7f78 “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  3. [Tremblay2016gabaergic] paper:paper-53c8505de50f “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  4. [Druga2023parvalbumin] paper:paper-6cb24fdb55a4 “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  5. [Pelkey2017hippocampal] paper:paper-ad1611a9283a “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  6. [Rozov2024dialectics] paper:paper-21b4420ef885 “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  7. [Luhmann2023dynamics] paper:paper-82b2fc46b739 “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  8. [Udakis2020interneuron] paper:paper-f65eae5e6c56 “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  9. [Wiera2024input] paper:paper-6634769ed2ab “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  10. [Woodruff2009depolarizing] paper:paper-c803cdbd5cbd “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  11. [Lipkin2023axon] paper:paper-0e6c363acab2 “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  12. [RinettiVargas2017periadolescent] paper:paper-2a56315e0967 “The fast-spiking phenotype characterized in {ref}`sec-intrinsic-electrophysiology` would be functionally meaningless without synaptic machinery capable of translating high-frequency action potentials into precisely timed inhibition. PV interneurons receive fast, reliable excitatory input and deliver perisomatic inhibition characterized by rapid kinetics and pronounced short-term depression [Bartos2002fast, Klausberg...”
  13. [Cruikshank2010pathway] paper:paper-046e316a15e6 “PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition [Cruikshank2010pathway, Sun2006barrel, Porter2001diverse]. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...”
  14. [Sun2006barrel] paper:paper-2f3c85a13dfa “PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition [Cruikshank2010pathway, Sun2006barrel, Porter2001diverse]. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...”
  15. [Porter2001diverse] paper:paper-3eb6456daece “PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition [Cruikshank2010pathway, Sun2006barrel, Porter2001diverse]. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...”
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  17. [Panthi2019impact] paper:paper-65b883d85018 “PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition [Cruikshank2010pathway, Sun2006barrel, Porter2001diverse]. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...”
  18. [Delevich2015mediodorsal] paper:paper-86169cad4277 “PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition [Cruikshank2010pathway, Sun2006barrel, Porter2001diverse]. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...”
  19. [Zhang2025mediodorsal] paper:paper-2603d6e67df4 “PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition [Cruikshank2010pathway, Sun2006barrel, Porter2001diverse]. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...”
  20. [Vantomme2025reuniens] paper:paper-5ffe79235222 “PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition [Cruikshank2010pathway, Sun2006barrel, Porter2001diverse]. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...”
  21. [Robert2021local] paper:paper-7c41d1752635 “PV interneurons are among the first cortical neurons recruited by thalamic afferents, a property that positions them as gatekeepers of feedforward inhibition [Cruikshank2010pathway, Sun2006barrel, Porter2001diverse]. In barrel cortex, thalamocortical axons form dense, highly convergent synapses onto layer 4 fast-spiking cells, producing large-amplitude, short-latency EPSCs that reliably drive PV interneuron firing w...”
  22. [Hong2024calcium] paper:paper-c0fcd396a08e “The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification [Hong2024calcium, Pelkey2015pentraxins]. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...”
  23. [Pelkey2015pentraxins] paper:paper-e9f4dcca027f “The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification [Hong2024calcium, Pelkey2015pentraxins]. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...”
  24. [Lewis2022pathway] paper:paper-f091dba9fefa “The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification [Hong2024calcium, Pelkey2015pentraxins]. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...”
  25. [GutmanWei2026cell] paper:paper-d8c260dd6b59 “The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification [Hong2024calcium, Pelkey2015pentraxins]. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...”
  26. [Korotkova2010nmda] paper:paper-c51a85129bee “The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification [Hong2024calcium, Pelkey2015pentraxins]. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...”
  27. [Belforte2010postnatal] paper:paper-31c511f98d76 “The excitatory synapses onto PV interneurons differ from those onto pyramidal cells in several fundamental respects. PV cells express calcium-permeable AMPA receptors (CP-AMPARs) that confer fast kinetics, high single-channel conductance, and inward rectification [Hong2024calcium, Pelkey2015pentraxins]. The maturation and synaptic clustering of these CP-AMPARs depend on neuronal pentraxins, particularly Narp and NP1...”
  28. [Fekete2025synaptic] paper:paper-4d0daef43dfa “Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile [Fekete2025synaptic]. Optogenetic in...”
  29. [Brill2016lsps] paper:paper-ea81f0013f6d “Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile [Fekete2025synaptic]. Optogenetic in...”
  30. [Armstrong2016target] paper:paper-d466f2b5dbae “Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile [Fekete2025synaptic]. Optogenetic in...”
  31. [Jezequel2025cadherins] paper:paper-e15118fdb41f “Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile [Fekete2025synaptic]. Optogenetic in...”
  32. [Mathieu2026uncovering] paper:paper-110020e8344f “Beyond thalamocortical afferents, PV interneurons receive recurrent excitation from local pyramidal neurons. In medial prefrontal cortex, paired recordings reveal that pyramidal-to-PV basket cell connections produce larger unitary EPSCs with shorter latency and faster decay kinetics than connections onto CCK basket cells, consistent with the CP-AMPAR-enriched postsynaptic profile [Fekete2025synaptic]. Optogenetic in...”
  33. [Fazzari2010control] paper:7913334d-871d-4c98-b6ee-6187bd1f77b0 “ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses [Fazzari2010control]; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...”
  34. [Ting2011neuregulin] paper:1e860525-a982-44de-b96e-fd7dce2352cf “ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses [Fazzari2010control]; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...”
  35. [Skirzewski2018erbb] paper:paper-39d2f687db2e “ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses [Fazzari2010control]; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...”
  36. [Folweiler2020traumatic] paper:paper-45ee2df84216 “ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses [Fazzari2010control]; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...”
  37. [Jiang2025reciprocal] paper:paper-654964b3bd89 “ErbB4 signaling through neuregulin-1 (NRG1) plays a dual role at excitatory synapses onto PV interneurons. On one hand, ErbB4 cell-autonomously promotes excitatory synapse formation and the assembly of axo-axonic inhibitory synapses [Fazzari2010control]; on the other, NRG1–ErbB4 signaling promotes excitatory synapse development and function specifically in GABAergic interneurons, enhancing glutamatergic transmission...”
  38. [Feyerabend2025functional] paper:paper-01908403ed00 “A recently characterized thalamocortical pathway reveals that VIP- and SST-expressing interneurons also receive functional thalamic innervation [Feyerabend2025functional], broadening the traditional view that thalamocortical feedforward inhibition operates exclusively through PV cells. Nevertheless, the combination of convergent thalamic drive, CP-AMPAR-mediated fast excitation, and precisely targeted recurrent inpu...”
  39. [Kruglikov2008perisomatic] paper:paper-c642a8c68cfb “A recently characterized thalamocortical pathway reveals that VIP- and SST-expressing interneurons also receive functional thalamic innervation [Feyerabend2025functional], broadening the traditional view that thalamocortical feedforward inhibition operates exclusively through PV cells. Nevertheless, the combination of convergent thalamic drive, CP-AMPAR-mediated fast excitation, and precisely targeted recurrent inpu...”
  40. [BecerraHernandez2026cortical] paper:paper-b0544e9fbfc3 “A recently characterized thalamocortical pathway reveals that VIP- and SST-expressing interneurons also receive functional thalamic innervation [Feyerabend2025functional], broadening the traditional view that thalamocortical feedforward inhibition operates exclusively through PV cells. Nevertheless, the combination of convergent thalamic drive, CP-AMPAR-mediated fast excitation, and precisely targeted recurrent inpu...”
  41. [Lewis2011perisomatic] paper:paper-d736c1058e47 “The defining output feature of PV basket cells is perisomatic inhibition: GABAergic synapses concentrated on the soma and proximal dendrites of target neurons, where they exert maximal control over action potential generation [Klausberger2005complementary, Rozov2024dialectics, Lewis2011perisomatic]. The efficacy of these inhibitory synapses profoundly affects neural network processing and overall neuronal function [...”
  42. [Zhang2025cholecystokinin] paper:a0e98e7b-e4c9-4e99-aa14-ed84b2c157e1 “The defining output feature of PV basket cells is perisomatic inhibition: GABAergic synapses concentrated on the soma and proximal dendrites of target neurons, where they exert maximal control over action potential generation [Klausberger2005complementary, Rozov2024dialectics, Lewis2011perisomatic]. The efficacy of these inhibitory synapses profoundly affects neural network processing and overall neuronal function [...”

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