Synaptic Properties and Connectivity
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Source: https://github.com/AllenNeuralDynamics/ComputationalReviewVIP/blob/95e761177f7d2ec565983d3307c14ec238f9677c/content/06_synaptic_properties.md
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1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough{ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough{ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP... -
3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough{ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP... -
4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough{ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP... -
5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough{ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP... -
6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough{ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP... -
7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough{ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP... -
4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau... -
5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau... -
1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0 A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1 A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2 A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3 A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4 A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 Within a cortical column, VIP interneurons receive excitatory drive from neighbouring pyramidal neurons that is, by paired-recording standards, modest. Connection probabilities from local L2/3 pyramidal cells onto VIP cells are comparable to (and in some preparations slightly lower than) those onto SST and PV interneurons 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6, and unitary EPSC amplitudes are correspondingly small [Karnani2016a, Walker2016... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7 Within a cortical column, VIP interneurons receive excitatory drive from neighbouring pyramidal neurons that is, by paired-recording standards, modest. Connection probabilities from local L2/3 pyramidal cells onto VIP cells are comparable to (and in some preparations slightly lower than) those onto SST and PV interneurons 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8, and unitary EPSC amplitudes are correspondingly small [Karnani2016a, Walker2016... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9 Within a cortical column, VIP interneurons receive excitatory drive from neighbouring pyramidal neurons that is, by paired-recording standards, modest. Connection probabilities from local L2/3 pyramidal cells onto VIP cells are comparable to (and in some preparations slightly lower than) those onto SST and PV interneurons 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0, and unitary EPSC amplitudes are correspondingly small [Karnani2016a, Walker2016... -
3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1 Within a cortical column, VIP interneurons receive excitatory drive from neighbouring pyramidal neurons that is, by paired-recording standards, modest. Connection probabilities from local L2/3 pyramidal cells onto VIP cells are comparable to (and in some preparations slightly lower than) those onto SST and PV interneurons 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2, and unitary EPSC amplitudes are correspondingly small [Karnani2016a, Walker2016... -
3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3 Within a cortical column, VIP interneurons receive excitatory drive from neighbouring pyramidal neurons that is, by paired-recording standards, modest. Connection probabilities from local L2/3 pyramidal cells onto VIP cells are comparable to (and in some preparations slightly lower than) those onto SST and PV interneurons 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4, and unitary EPSC amplitudes are correspondingly small [Karnani2016a, Walker2016... -
3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 Within a cortical column, VIP interneurons receive excitatory drive from neighbouring pyramidal neurons that is, by paired-recording standards, modest. Connection probabilities from local L2/3 pyramidal cells onto VIP cells are comparable to (and in some preparations slightly lower than) those onto SST and PV interneurons 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6, and unitary EPSC amplitudes are correspondingly small [Karnani2016a, Walker2016... -
3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8. PV cells contribute a smaller but non-negligible f... -
3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0. PV cells contribute a smaller but non-negligible f... -
4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2. PV cells contribute a smaller but non-negligible f... -
4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4. PV cells contribute a smaller but non-negligible f... -
4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6. PV cells contribute a smaller but non-negligible f... -
4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8. PV cells contribute a smaller but non-negligible f... -
4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0. PV cells contribute a smaller but non-negligible f... -
5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2. PV cells contribute a smaller but non-negligible f... -
5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4. PV cells contribute a smaller but non-negligible f... -
5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6. PV cells contribute a smaller but non-negligible f... -
5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8. PV cells contribute a smaller but non-negligible f... -
5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0. PV cells contribute a smaller but non-negligible f... -
6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2. PV cells contribute a smaller but non-negligible f... -
6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3 Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations 6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4. PV cells contribute a smaller but non-negligible f... -
6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6, 6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7, 6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8, 6CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9, 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0, 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1, 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2, 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3, 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4, [A... -
7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6, 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7, 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8, 7CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9, 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0, 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1, 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2, 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3, 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4, [A... -
4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6, 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7, 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8, 4CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9, 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0, 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1, 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2, 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3, 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4, [A... -
5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6, 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7, 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8, 5CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9, 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference0, 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference1, 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference2, 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference3, 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference4, [A... -
1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference5 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference6, 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference7, 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference8, 1CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference9, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference00, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference01, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference02, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference03, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference04, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference05 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference06, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference07, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference08, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference09, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference10, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference11, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference12, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference13, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference14, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference15 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference16, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference17, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference18, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference19, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference20, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference21, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference22, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference23, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference24, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference25 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference26, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference27, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference28, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference29, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference30, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference31, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference32, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference33, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference34, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference35 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference36, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference37, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference38, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference39, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference40, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference41, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference42, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference43, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference44, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference45 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference46, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference47, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference48, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference49, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference50, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference51, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference52, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference53, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference54, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference55 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference56, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference57, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference58, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference59, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference60, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference61, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference62, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference63, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference64, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference65 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference66, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference67, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference68, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference69, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference70, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference71, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference72, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference73, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference74, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference75 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference76, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference77, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference78, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference79, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference80, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference81, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference82, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference83, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference84, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference85 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference86, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference87, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference88, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference89, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference90, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference91, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference92, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference93, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference94, [A... -
2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}
sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference95 VIP synaptic connectivity at a glance. (A) Qualitative cross-study consensus categories (absent / weak / moderate / strong) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference96, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference97, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference98, 2CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference99, 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference00, 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference01, 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference02, 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference03, 3CitationThe preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}sec-molecular-identitythrough {ref}sec-morphology) through their intrinsic and morphological signatures ({ref}sec-electrophysiology). Those analyses establish what kind of cell a VIP interneuron is; they do not yet tell us what circuit role it plays. That role is set by synapses — by the afferents that drive VIP...content/06_synaptic_properties.md:line 5Open reference04, [A... -
... 414 additional anchors in refs_json
References
- [Yu2019] “The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}`sec-molecular-identity` through {ref}`sec-morphology`) through their intrinsic and morphological signatures ({ref}`sec-electrophysiology`). Those analyses establish *what kind of cell* a VIP interneuron is; they do not yet tell us *what circuit role it plays*. That role is set by synapses — by the afferents that drive VIP...”
- [Zhou2017] “The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}`sec-molecular-identity` through {ref}`sec-morphology`) through their intrinsic and morphological signatures ({ref}`sec-electrophysiology`). Those analyses establish *what kind of cell* a VIP interneuron is; they do not yet tell us *what circuit role it plays*. That role is set by synapses — by the afferents that drive VIP...”
- [Anastasiades2021a] “The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}`sec-molecular-identity` through {ref}`sec-morphology`) through their intrinsic and morphological signatures ({ref}`sec-electrophysiology`). Those analyses establish *what kind of cell* a VIP interneuron is; they do not yet tell us *what circuit role it plays*. That role is set by synapses — by the afferents that drive VIP...”
- [Pfeffer2013] “The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}`sec-molecular-identity` through {ref}`sec-morphology`) through their intrinsic and morphological signatures ({ref}`sec-electrophysiology`). Those analyses establish *what kind of cell* a VIP interneuron is; they do not yet tell us *what circuit role it plays*. That role is set by synapses — by the afferents that drive VIP...”
- [Pi2013] “The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}`sec-molecular-identity` through {ref}`sec-morphology`) through their intrinsic and morphological signatures ({ref}`sec-electrophysiology`). Those analyses establish *what kind of cell* a VIP interneuron is; they do not yet tell us *what circuit role it plays*. That role is set by synapses — by the afferents that drive VIP...”
- [Lee2013] “The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}`sec-molecular-identity` through {ref}`sec-morphology`) through their intrinsic and morphological signatures ({ref}`sec-electrophysiology`). Those analyses establish *what kind of cell* a VIP interneuron is; they do not yet tell us *what circuit role it plays*. That role is set by synapses — by the afferents that drive VIP...”
- [Karnani2016a] “The preceding sections traced VIP interneurons from their lineage and molecular identity ({ref}`sec-molecular-identity` through {ref}`sec-morphology`) through their intrinsic and morphological signatures ({ref}`sec-electrophysiology`). Those analyses establish *what kind of cell* a VIP interneuron is; they do not yet tell us *what circuit role it plays*. That role is set by synapses — by the afferents that drive VIP...”
- [Walker2016] “A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau...”
- [Wall2016] “A note on scope. This section concentrates on cortical (V1, A1, S1, mPFC, motor cortex) and hippocampal VIP populations, where the modulator-targeted disinhibitory architecture has been most thoroughly dissected. Subcortical and amygdalar VIP-cell populations are referenced where they bear directly on the cortical disinhibitory motif (in particular for amygdalar fear-conditioning circuits) but are not surveyed exhau...”
- [Pronneke2015] “Within a cortical column, VIP interneurons receive excitatory drive from neighbouring pyramidal neurons that is, by paired-recording standards, modest. Connection probabilities from local L2/3 pyramidal cells onto VIP cells are comparable to (and in some preparations slightly lower than) those onto SST and PV interneurons [Karnani2016a], and unitary EPSC amplitudes are correspondingly small [Karnani2016a, Walker2016...”
- [Cauli2014] “Within a cortical column, VIP interneurons receive excitatory drive from neighbouring pyramidal neurons that is, by paired-recording standards, modest. Connection probabilities from local L2/3 pyramidal cells onto VIP cells are comparable to (and in some preparations slightly lower than) those onto SST and PV interneurons [Karnani2016a], and unitary EPSC amplitudes are correspondingly small [Karnani2016a, Walker2016...”
- [Pronneke2019] “Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations [Pfeffer2013, Karnani2016a, Walker2016]. PV cells contribute a smaller but non-negligible f...”
- [Karnani2016b] “Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations [Pfeffer2013, Karnani2016a, Walker2016]. PV cells contribute a smaller but non-negligible f...”
- [Sabri2024] “Local inhibition onto VIP cells is, conversely, dominated by SST input. Paired recordings and SST-Cre optogenetics consistently show that SST interneurons provide the largest single source of local IPSCs onto VIP cells, with connection probabilities that meet or exceed the reciprocal VIP→SST direction in the same preparations [Pfeffer2013, Karnani2016a, Walker2016]. PV cells contribute a smaller but non-negligible f...”
- [Zhang2014] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
- [Williams2019] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
- [Cruikshank2012] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
- [Audette2018] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
- [Porter1999] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
- [Fu2014] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
- [Arroyo2012] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
- [Ferezou2002] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
- [Vucurovic2010] “**VIP synaptic connectivity at a glance.** **(A)** Qualitative cross-study consensus categories (`absent / weak / moderate / strong`) for afferent drive onto VIP, SST and PV interneurons. Six afferent classes are pooled across rodent neocortex (V1, A1, S1, mPFC). Sources include [Karnani2016a], [Walker2016], [Karnani2016a], [Wall2016], [Lee2013], [Zhang2014], [Williams2019], [Cruikshank2012], [Anastasiades2021a], [A...”
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