Introduction

computational_review_section · SciDEX wiki

Introduction

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/01_introduction.md

Citation anchors captured: 143

Citation contexts

  • 1Citationpaper:paper-065a0eae69a5Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 6Citationpaper:paper-53c8505de50fVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 7Citationpaper:paper-73696115e165Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 8Citationpaper:paper-55f18434021bVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference0 Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference1 Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference2 Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference3 Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference4 Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference5 Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference6 Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference7 Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference8 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 2Citationpaper:paper-f02f24cb44ffVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference9 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference0 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference1 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference2 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference3 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference4 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference5 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference6 This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference7 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference8 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 3Citationpaper:paper-1659c2dc5d60Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference9 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference0 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference1 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference2 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference3 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference4 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference5 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference6 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference7 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference8 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 4Citationpaper:paper-5cfe39bf225dVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference9 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference0 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference1 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference2 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference3 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference4 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference5 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference6 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference7 The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}sec-molecular-identity reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...

  • 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference8 {numref}sec-synaptic-properties inventories afferent and efferent connectivity — long-range cortico-cortical and thalamic input, neuromodulatory drive, and the asymmetric VIP→SST > VIP→PV/Pyr output that is the structural basis for the disinhibitory reading — and flags the layer- and area-specific exceptions to that asymmetry 5Citationpaper:paper-d405e5906927Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference9. {num...

  • 6Citationpaper:paper-53c8505de50fVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference0 {numref}sec-synaptic-properties inventories afferent and efferent connectivity — long-range cortico-cortical and thalamic input, neuromodulatory drive, and the asymmetric VIP→SST > VIP→PV/Pyr output that is the structural basis for the disinhibitory reading — and flags the layer- and area-specific exceptions to that asymmetry 6Citationpaper:paper-53c8505de50fVasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...content/01_introduction.md:line 5Open reference1. {num...

  • ... 93 additional anchors in refs_json

References

  1. [Pi2013] paper:paper-065a0eae69a5 “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  2. [Lee2013] paper:paper-f02f24cb44ff “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  3. [Pfeffer2013] paper:paper-1659c2dc5d60 “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  4. [Fu2014] paper:paper-5cfe39bf225d “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  5. [Karnani2016a] paper:paper-d405e5906927 “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  6. [Tremblay2016] paper:paper-53c8505de50f “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  7. [Kuchibhotla2017] paper:paper-73696115e165 “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  8. [Williams2019] paper:paper-55f18434021b “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  9. [Hertag2019] paper:paper-485852ecd519 “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  10. [Litwinkumar2016] paper:paper-8f25714ab7fe “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  11. [Garciadelmolino2017] paper:paper-e67fae66877b “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  12. [Pakan2016] paper:paper-acf576c0a2ed “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  13. [Dipoppa2018] paper:paper-f457e091013f “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  14. [Yavorska2021] paper:paper-efd019ed56b7 “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  15. [Sanzeni2020] paper:paper-d6edd2b57842 “Vasoactive intestinal peptide-expressing (VIP) GABAergic interneurons occupy a distinctive position in the cortical inhibitory circuit. They are a numerically small subclass — under one in ten cortical interneurons across most rodent areas — yet they are recruited reliably by locomotion, arousal, reward, punishment, and top-down attention, and they have been written into circuit diagrams as the principal source of s...”
  16. [Garrett2020] paper:paper-14e8bef771dc “This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...”
  17. [Bigelow2019] paper:paper-a8e4661056ad “This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...”
  18. [Anastasiades2021a] paper:paper-7227d2a3ed3e “This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...”
  19. [Bastos2023a] paper:paper-45d83bfad56d “This review takes that tension as its starting point. Rather than re-affirming the disinhibitory motif as a uniform property of the VIP subclass, the review asks what the evidence — molecular, developmental, morphological, electrophysiological, synaptic, in-vivo, oscillatory, computational, and translational — actually constrains, and where the boundaries of safe inference lie. The thesis the review defends is that...”
  20. [Rudy2011] paper:34a07597-2d6f-4552-b9cf-d2d11817f9f9 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  21. [Tasic2016] paper:paper-ed2a7f08ef35 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  22. [Tasic2018] paper:paper-pm-30382198 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  23. [Hodge2019] paper:paper-pm-31435019 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  24. [Yao2023] paper:1f98e15e-de06-42f7-9da8-1faa69bba835 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  25. [Lee2023a] paper:paper-37824669 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  26. [Gouwens2020a] paper:paper-pm-33186530 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  27. [Fishell2011] paper:paper-ad74fde5dddb “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  28. [Lodato2011] paper:paper-0a1c03417b77 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  29. [Vogt2014] paper:paper-09e3387a22aa “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  30. [Mayer2018] paper:paper-c3e9fd7af6d3 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  31. [Batistabrito2017] paper:paper-225bd344d49d “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  32. [Vucurovic2010] paper:paper-0336a131683f “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  33. [Cauli1997] paper:paper-00a823c2a8ab “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  34. [Cauli2014] paper:paper-ba54efae783d “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  35. [Pronneke2015] paper:paper-8e91417bef90 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  36. [Apicella2022] paper:paper-4c0c7cc4feb7 “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  37. [Emmenegger2018] paper:paper-74a3fe07764f “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  38. [Gouwens2019] paper:paper-b9e0351c6ddd “The body of the review is structured as eleven sections that move from the molecular identity of the subclass outward to its translational implications. {numref}`sec-molecular-identity` reviews the transcriptomic and marker-gene evidence anchoring VIP within the caudal-ganglionic-eminence (CGE)–derived, 5-HT3AR+ branch of cortical inhibition and surveys current single-cell atlases that resolve the subclass into mult...”
  39. [Karnani2016b] paper:paper-0a3cf7627c63 “{numref}`sec-synaptic-properties` inventories afferent and efferent connectivity — long-range cortico-cortical and thalamic input, neuromodulatory drive, and the asymmetric VIP→SST > VIP→PV/Pyr output that is the structural basis for the disinhibitory reading — and flags the layer- and area-specific exceptions to that asymmetry [Pi2013,Pfeffer2013,Lee2013,Karnani2016a,Karnani2016b,Wall2016,Schneidermizell2025]. {num...”
  40. [Wall2016] paper:paper-32a4e1ae2010 “{numref}`sec-synaptic-properties` inventories afferent and efferent connectivity — long-range cortico-cortical and thalamic input, neuromodulatory drive, and the asymmetric VIP→SST > VIP→PV/Pyr output that is the structural basis for the disinhibitory reading — and flags the layer- and area-specific exceptions to that asymmetry [Pi2013,Pfeffer2013,Lee2013,Karnani2016a,Karnani2016b,Wall2016,Schneidermizell2025]. {num...”
  41. [Schneidermizell2025] paper:paper-70b61d2c4332 “{numref}`sec-synaptic-properties` inventories afferent and efferent connectivity — long-range cortico-cortical and thalamic input, neuromodulatory drive, and the asymmetric VIP→SST > VIP→PV/Pyr output that is the structural basis for the disinhibitory reading — and flags the layer- and area-specific exceptions to that asymmetry [Pi2013,Pfeffer2013,Lee2013,Karnani2016a,Karnani2016b,Wall2016,Schneidermizell2025]. {num...”

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