VIP Interneurons Across Brain Regions
This section is represented as a source-backed SciDEX wiki artifact. The full source remains in the original computational-review repository.
Source: https://github.com/AllenNeuralDynamics/ComputationalReviewVIP/blob/95e761177f7d2ec565983d3307c14ec238f9677c/content/09_cross_areas.md
Citation anchors captured: 258
Citation contexts
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by 2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7 in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...
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2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 2CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8 The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells 3CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 Three lines of evidence complicate this disinhibitory reading. First, the locomotion drive itself is context-modulated: 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1 reported that VIP↑/SST↓ antiphasic modulation in V1 is most pronounced when concurrent visual stimuli are present, although most VIP cells remain locomotion-responsive in darkness, in agreement with the more invariant locomotion drive reported by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2. Second, the gain modulati...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3 Three lines of evidence complicate this disinhibitory reading. First, the locomotion drive itself is context-modulated: 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 reported that VIP↑/SST↓ antiphasic modulation in V1 is most pronounced when concurrent visual stimuli are present, although most VIP cells remain locomotion-responsive in darkness, in agreement with the more invariant locomotion drive reported by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5. Second, the gain modulati...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 Three lines of evidence complicate this disinhibitory reading. First, the locomotion drive itself is context-modulated: 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7 reported that VIP↑/SST↓ antiphasic modulation in V1 is most pronounced when concurrent visual stimuli are present, although most VIP cells remain locomotion-responsive in darkness, in agreement with the more invariant locomotion drive reported by 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8. Second, the gain modulati...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9 Three lines of evidence complicate this disinhibitory reading. First, the locomotion drive itself is context-modulated: 4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 reported that VIP↑/SST↓ antiphasic modulation in V1 is most pronounced when concurrent visual stimuli are present, although most VIP cells remain locomotion-responsive in darkness, in agreement with the more invariant locomotion drive reported by 4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1. Second, the gain modulati...
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4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2 4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3 formalised VIP→SST as a broad disinhibitory module that uniformly gates pyramidal output across cortex. 4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 instead reported that VIP-mediated disinhibition is spatially restricted, with small populations of activated VIP cells suppressing nearby SST cells without affecting distant SST cells, opening localised “holes” in the SST blanket. Resolution status: open. The two views are not formally inc...
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4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5 4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 formalised VIP→SST as a broad disinhibitory module that uniformly gates pyramidal output across cortex. 4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7 instead reported that VIP-mediated disinhibition is spatially restricted, with small populations of activated VIP cells suppressing nearby SST cells without affecting distant SST cells, opening localised “holes” in the SST blanket. Resolution status: open. The two views are not formally inc...
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4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8 4CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9 framed VIP recruitment as enabling a state-dependent multiplicative gain on pyramidal firing, consistent with reinforcement-linked broadcast disinhibition. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference0 instead found that V1 VIP activation selectively enhances responses to low-contrast stimuli and does not scale high-contrast responses, with the effect requiring SST circuitry. Resolution status: open. The contrast-dependent reading is more...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference1 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference2 framed VIP recruitment as enabling a state-dependent multiplicative gain on pyramidal firing, consistent with reinforcement-linked broadcast disinhibition. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference3 instead found that V1 VIP activation selectively enhances responses to low-contrast stimuli and does not scale high-contrast responses, with the effect requiring SST circuitry. Resolution status: open. The contrast-dependent reading is more...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference4 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference5 reported that locomotion robustly drove V1 VIP cells across stimulus conditions, supporting locomotion as a primary VIP-engaging variable. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference6 reported that VIP locomotion modulation was modulated by visual context, with VIP and SST showing antiphase modulation that was strongest when running was paired with visual drive although VIP cells remained locomotion-responsive in darkness. Resolution...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference7 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference8 reported that locomotion robustly drove V1 VIP cells across stimulus conditions, supporting locomotion as a primary VIP-engaging variable. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference9 reported that VIP locomotion modulation was modulated by visual context, with VIP and SST showing antiphase modulation that was strongest when running was paired with visual drive although VIP cells remained locomotion-responsive in darkness. Resolution...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference00 The morphological and laminar substrate constrains how broadly V1 VIP cells can act. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference01 documented that L2/3 small bipolar VIP cells display dense vertical axonal arbors descending to L5, consistent with apical-dendrite-targeting onto pyramidal neurons in addition to L2/3 SST cells, and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference02 and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference03 established that the bipolar/double-bouquet morphology distinguishes VIP cells from...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference04 The morphological and laminar substrate constrains how broadly V1 VIP cells can act. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference05 documented that L2/3 small bipolar VIP cells display dense vertical axonal arbors descending to L5, consistent with apical-dendrite-targeting onto pyramidal neurons in addition to L2/3 SST cells, and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference06 and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference07 established that the bipolar/double-bouquet morphology distinguishes VIP cells from...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference08 The morphological and laminar substrate constrains how broadly V1 VIP cells can act. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference09 documented that L2/3 small bipolar VIP cells display dense vertical axonal arbors descending to L5, consistent with apical-dendrite-targeting onto pyramidal neurons in addition to L2/3 SST cells, and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference10 and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference11 established that the bipolar/double-bouquet morphology distinguishes VIP cells from...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference12 The morphological and laminar substrate constrains how broadly V1 VIP cells can act. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference13 documented that L2/3 small bipolar VIP cells display dense vertical axonal arbors descending to L5, consistent with apical-dendrite-targeting onto pyramidal neurons in addition to L2/3 SST cells, and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference14 and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference15 established that the bipolar/double-bouquet morphology distinguishes VIP cells from...
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1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference16 The morphological and laminar substrate constrains how broadly V1 VIP cells can act. 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference17 documented that L2/3 small bipolar VIP cells display dense vertical axonal arbors descending to L5, consistent with apical-dendrite-targeting onto pyramidal neurons in addition to L2/3 SST cells, and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference18 and 1CitationVIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the operation implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...content/09_cross_areas.md:line 5Open reference19 established that the bipolar/double-bouquet morphology distinguishes VIP cells from...
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... 208 additional anchors in refs_json
References
- [Pi2013] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Karnani2016b] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Dipoppa2018] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Lee2013] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Bastos2023a] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Millman2020] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Pakan2016] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Sermet2019] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Anastasiades2021a] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Kamigaki2017] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Li2022a] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Gulyas1996] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Tyan2014] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Tricoire2011] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Rhomberg2018] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Vereczki2021] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Munozmanchado2018] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Maywood2006] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Cutler2003] “VIP function is not uniform across the brain. The disinhibitory VIP→SST→Pyr disinhibitory motif first formalised by [Pi2013] in auditory cortex and medial prefrontal cortex captures a real and reproducible circuit, but contemporary multi-area recordings show that the *operation* implemented by that motif — and in some structures, the motif itself — varies systematically with cortical area, behavioural context, and d...”
- [Kawaguchi1996] “The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells [Kawaguchi1996,Gonchar2008,Kawaguchi1997a]. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...”
- [Gonchar2008] “The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells [Kawaguchi1996,Gonchar2008,Kawaguchi1997a]. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...”
- [Kawaguchi1997a] “The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells [Kawaguchi1996,Gonchar2008,Kawaguchi1997a]. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...”
- [Wall2016] “The most extensively characterised cortical VIP population sits in mouse V1, where VIP+ small bipolar/multipolar cells with vertically descending axonal arbors target apical dendrites of L5 pyramidal neurons and innervate L2/3 SST cells [Kawaguchi1996,Gonchar2008,Kawaguchi1997a]. Long-range tracing places these cells at the receiving end of cholinergic, serotonergic, and frontal cortical inputs disproportionately en...”
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