Oscillatory Dynamics and Temporal Coordination
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/10_oscillatory_dynamics.md
Citation anchors captured: 180
Citation contexts
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, and is recruited diff...
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2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, and is recruited diff...
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3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, and is recruited diff...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0, and is recruited diff...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3, and is recruited diff...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6, and is recruited diff...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9, and is recruited diff...
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2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1, gates theta-band coordination through hippocampal interneuron-specific circuits 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2, and is recruited diff...
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2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4, gates theta-band coordination through hippocampal interneuron-specific circuits 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5, and is recruited diff...
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2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7, gates theta-band coordination through hippocampal interneuron-specific circuits 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8, and is recruited diff...
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2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0, and is recruited diff...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3, and is recruited diff...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6, and is recruited diff...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8, gates theta-band coordination through hippocampal interneuron-specific circuits 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9, and is recruited diff...
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3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1, gates theta-band coordination through hippocampal interneuron-specific circuits 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2, and is recruited diff...
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3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4, gates theta-band coordination through hippocampal interneuron-specific circuits 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5, and is recruited diff...
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3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7, gates theta-band coordination through hippocampal interneuron-specific circuits 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8, and is recruited diff...
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3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5 VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6, gates theta-band coordination through hippocampal interneuron-specific circuits 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7, and is recruited diff...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8 Cortical gamma (30–80 Hz) is dominated by reciprocal interactions between fast-spiking PV cells and pyramidal neurons, while VIP cells operate one synapse upstream by suppressing SST cells and, through that route, biasing gamma power and coherence. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9 combined V1 optogenetics, LFP, and a computational model to show that VIP-cell activation linearly scales local gamma power without altering its stimulus tun...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0 Cortical gamma (30–80 Hz) is dominated by reciprocal interactions between fast-spiking PV cells and pyramidal neurons, while VIP cells operate one synapse upstream by suppressing SST cells and, through that route, biasing gamma power and coherence. 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1 combined V1 optogenetics, LFP, and a computational model to show that VIP-cell activation linearly scales local gamma power without altering its stimulus tun...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2 Cortical gamma (30–80 Hz) is dominated by reciprocal interactions between fast-spiking PV cells and pyramidal neurons, while VIP cells operate one synapse upstream by suppressing SST cells and, through that route, biasing gamma power and coherence. 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3 combined V1 optogenetics, LFP, and a computational model to show that VIP-cell activation linearly scales local gamma power without altering its stimulus tun...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4 Cortical gamma (30–80 Hz) is dominated by reciprocal interactions between fast-spiking PV cells and pyramidal neurons, while VIP cells operate one synapse upstream by suppressing SST cells and, through that route, biasing gamma power and coherence. 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5 combined V1 optogenetics, LFP, and a computational model to show that VIP-cell activation linearly scales local gamma power without altering its stimulus tun...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6 These computational predictions align with two-photon and electrophysiological recordings of cell-type-specific synchronization in mouse V1. 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7 measured neuron–network coupling distributions in superficial V1 and found that PV and VIP cells are skewed toward strong coupling with the local population, while SST cells split into two distinct sub-distributions — consistent with VIP cells embedded in a tight...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8 These computational predictions align with two-photon and electrophysiological recordings of cell-type-specific synchronization in mouse V1. 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 5CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 6CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9 measured neuron–network coupling distributions in superficial V1 and found that PV and VIP cells are skewed toward strong coupling with the local population, while SST cells split into two distinct sub-distributions — consistent with VIP cells embedded in a tight...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference0 The framing extends to disease and translational gamma 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference1. 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference2 propose that PV-, VIP-, SST-, and NOS-class interneurons collectively exploit endogenous gamma to perform homeostatic vasomotor control — a “guardian-of-brain-health” framework in which VIP cells couple gamma activity to neurovascular and clearance-related output rather than to rhythm genesis. Direct support comes from Prior wor...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference3 The framing extends to disease and translational gamma 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference4. 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference5 propose that PV-, VIP-, SST-, and NOS-class interneurons collectively exploit endogenous gamma to perform homeostatic vasomotor control — a “guardian-of-brain-health” framework in which VIP cells couple gamma activity to neurovascular and clearance-related output rather than to rhythm genesis. Direct support comes from Prior wor...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference6 The framing extends to disease and translational gamma 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference7. 4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference8 propose that PV-, VIP-, SST-, and NOS-class interneurons collectively exploit endogenous gamma to perform homeostatic vasomotor control — a “guardian-of-brain-health” framework in which VIP cells couple gamma activity to neurovascular and clearance-related output rather than to rhythm genesis. Direct support comes from Prior wor...
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4CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference9 The framing extends to disease and translational gamma 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference00. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference01 propose that PV-, VIP-, SST-, and NOS-class interneurons collectively exploit endogenous gamma to perform homeostatic vasomotor control — a “guardian-of-brain-health” framework in which VIP cells couple gamma activity to neurovascular and clearance-related output rather than to rhythm genesis. Direct support comes from Prior wor...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference02 The framing extends to disease and translational gamma 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference03. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference04 propose that PV-, VIP-, SST-, and NOS-class interneurons collectively exploit endogenous gamma to perform homeostatic vasomotor control — a “guardian-of-brain-health” framework in which VIP cells couple gamma activity to neurovascular and clearance-related output rather than to rhythm genesis. Direct support comes from Prior wor...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference05 Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin “IS3” cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference06. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference07 showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference08 Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin “IS3” cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference09. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference10 showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference11 Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin “IS3” cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference12. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference13 showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference14 Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin “IS3” cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference15. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference16 showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference17 Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin “IS3” cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference18. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference19 showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference20 Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin “IS3” cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference21. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference22 showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference23 In awake mice, in-vivo recruitment of these cells is theta-locked but ripple-excluded. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference24 reported that VIP-IS cells fire preferentially during theta-run epochs at the rising phase and peak of the theta cycle but are not recruited during sharp-wave ripples — contradicting model predictions that had placed IS cells in the ripple-replay circuitry. Long-range VIP-GABAergic projection cells in CA1, by contrast,...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference25 In awake mice, in-vivo recruitment of these cells is theta-locked but ripple-excluded. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference26 reported that VIP-IS cells fire preferentially during theta-run epochs at the rising phase and peak of the theta cycle but are not recruited during sharp-wave ripples — contradicting model predictions that had placed IS cells in the ripple-replay circuitry. Long-range VIP-GABAergic projection cells in CA1, by contrast,...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference27 In awake mice, in-vivo recruitment of these cells is theta-locked but ripple-excluded. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference28 reported that VIP-IS cells fire preferentially during theta-run epochs at the rising phase and peak of the theta cycle but are not recruited during sharp-wave ripples — contradicting model predictions that had placed IS cells in the ripple-replay circuitry. Long-range VIP-GABAergic projection cells in CA1, by contrast,...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference29 In awake mice, in-vivo recruitment of these cells is theta-locked but ripple-excluded. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference30 reported that VIP-IS cells fire preferentially during theta-run epochs at the rising phase and peak of the theta cycle but are not recruited during sharp-wave ripples — contradicting model predictions that had placed IS cells in the ripple-replay circuitry. Long-range VIP-GABAergic projection cells in CA1, by contrast,...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference31 Plasticity at IS3 connections couples theta activity to its own disinhibitory output. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference32 showed in young-adult Wistar rat CA1 that endogenous VIP acting through VPAC1 receptors (but not VPAC2) inhibits theta-burst-stimulation–induced LTP via GABAergic disinhibition, regulating CaMKII autophosphorylation and Kv4.2 channel phosphorylation. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference33 complement this with non-Hebbian, heterosynaptic...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference34 Plasticity at IS3 connections couples theta activity to its own disinhibitory output. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference35 showed in young-adult Wistar rat CA1 that endogenous VIP acting through VPAC1 receptors (but not VPAC2) inhibits theta-burst-stimulation–induced LTP via GABAergic disinhibition, regulating CaMKII autophosphorylation and Kv4.2 channel phosphorylation. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference36 complement this with non-Hebbian, heterosynaptic...
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1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference37 Plasticity at IS3 connections couples theta activity to its own disinhibitory output. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference38 showed in young-adult Wistar rat CA1 that endogenous VIP acting through VPAC1 receptors (but not VPAC2) inhibits theta-burst-stimulation–induced LTP via GABAergic disinhibition, regulating CaMKII autophosphorylation and Kv4.2 channel phosphorylation. 1CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 2CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference, 3CitationVIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...content/10_oscillatory_dynamics.md:line 4Open reference39 complement this with non-Hebbian, heterosynaptic...
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References
- [Veit2023] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Wagatsuma2023] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Knoblich2019] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Tyan2014] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Luo2020] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Lee2019] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Tahvildari2012] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Brecier2022] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Rolle2025] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Sabri2024] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Hall2015] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Goel2025] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Kranz2025] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Goff2019] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Bastos2023a] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Lee2025] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Fu2014] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Pakan2016] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Kawaguchi2001] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Chen2015a] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Szadai2022] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Kuchibhotla2017] “VIP cells contribute to cortical and hippocampal rhythms primarily as state-gating modulators rather than as primary rhythm generators. Across mouse cortex, hippocampus, and amygdala, VIP recruitment biases gamma power and inter-areal gamma coherence [Veit2023,Wagatsuma2023,Knoblich2019], gates theta-band coordination through hippocampal interneuron-specific circuits [Tyan2014,Luo2020,Lee2019], and is recruited diff...”
- [Hahn2022] “Cortical gamma (30–80 Hz) is dominated by reciprocal interactions between fast-spiking PV cells and pyramidal neurons, while VIP cells operate one synapse upstream by suppressing SST cells and, through that route, biasing gamma power and coherence. [Veit2023] combined V1 optogenetics, LFP, and a computational model to show that VIP-cell activation linearly scales local gamma power *without* altering its stimulus tun...”
- [Sarkar2025] “Cortical gamma (30–80 Hz) is dominated by reciprocal interactions between fast-spiking PV cells and pyramidal neurons, while VIP cells operate one synapse upstream by suppressing SST cells and, through that route, biasing gamma power and coherence. [Veit2023] combined V1 optogenetics, LFP, and a computational model to show that VIP-cell activation linearly scales local gamma power *without* altering its stimulus tun...”
- [Bohannon2018] “These computational predictions align with two-photon and electrophysiological recordings of cell-type-specific synchronization in mouse V1. [Knoblich2019] measured neuron–network coupling distributions in superficial V1 and found that PV and VIP cells are skewed toward strong coupling with the local population, while SST cells split into two distinct sub-distributions — consistent with VIP cells embedded in a tight...”
- [Ichim2024] “The framing extends to disease and translational gamma [Goel2025,Kranz2025]. [Ichim2024] propose that PV-, VIP-, SST-, and NOS-class interneurons collectively exploit endogenous gamma to perform homeostatic vasomotor control — a "guardian-of-brain-health" framework in which VIP cells couple gamma activity to neurovascular and clearance-related output rather than to rhythm genesis. Direct support comes from Prior wor...”
- [Murdock2024] “The framing extends to disease and translational gamma [Goel2025,Kranz2025]. [Ichim2024] propose that PV-, VIP-, SST-, and NOS-class interneurons collectively exploit endogenous gamma to perform homeostatic vasomotor control — a "guardian-of-brain-health" framework in which VIP cells couple gamma activity to neurovascular and clearance-related output rather than to rhythm genesis. Direct support comes from Prior wor...”
- [Rademacher2025] “The framing extends to disease and translational gamma [Goel2025,Kranz2025]. [Ichim2024] propose that PV-, VIP-, SST-, and NOS-class interneurons collectively exploit endogenous gamma to perform homeostatic vasomotor control — a "guardian-of-brain-health" framework in which VIP cells couple gamma activity to neurovascular and clearance-related output rather than to rhythm genesis. Direct support comes from Prior wor...”
- [Chamberland2010] “Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin "IS3" cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output [Tyan2014,Chamberland2010,Luo2020]. [Tyan2014] showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...”
- [Gulyas1996] “Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin "IS3" cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output [Tyan2014,Chamberland2010,Luo2020]. [Tyan2014] showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...”
- [Tricoire2011] “Theta (4–10 Hz) in hippocampus is paced primarily by septal and entorhinal inputs interacting with OLM and other principal-cell-targeting interneurons, but VIP/calretinin "IS3" cells provide a specialised disinhibitory layer that controls the rate and timing of OLM output [Tyan2014,Chamberland2010,Luo2020]. [Tyan2014] showed by paired patch-clamp and ChR2 in CA1 oriens/alveus that VIP+/CR+ IS3 cells selectively inne...”
- [Francavilla2018a] “In awake mice, in-vivo recruitment of these cells is theta-locked but ripple-excluded. [Luo2020] reported that VIP-IS cells fire preferentially during theta-run epochs at the rising phase and peak of the theta cycle but are *not* recruited during sharp-wave ripples — contradicting model predictions that had placed IS cells in the ripple-replay circuitry. Long-range VIP-GABAergic projection cells in CA1, by contrast,...”
- [Guetmccreight2019] “In awake mice, in-vivo recruitment of these cells is theta-locked but ripple-excluded. [Luo2020] reported that VIP-IS cells fire preferentially during theta-run epochs at the rising phase and peak of the theta cycle but are *not* recruited during sharp-wave ripples — contradicting model predictions that had placed IS cells in the ripple-replay circuitry. Long-range VIP-GABAergic projection cells in CA1, by contrast,...”
- [Bell2021] “In awake mice, in-vivo recruitment of these cells is theta-locked but ripple-excluded. [Luo2020] reported that VIP-IS cells fire preferentially during theta-run epochs at the rising phase and peak of the theta cycle but are *not* recruited during sharp-wave ripples — contradicting model predictions that had placed IS cells in the ripple-replay circuitry. Long-range VIP-GABAergic projection cells in CA1, by contrast,...”
- [Caulinorocha2022] “Plasticity at IS3 connections couples theta activity to its own disinhibitory output. [Caulinorocha2022] showed in young-adult Wistar rat CA1 that endogenous VIP acting through VPAC1 receptors (but not VPAC2) inhibits theta-burst-stimulation–induced LTP via GABAergic disinhibition, regulating CaMKII autophosphorylation and Kv4.2 channel phosphorylation. [Jabonska2026] complement this with non-Hebbian, heterosynaptic...”
- [Jabonska2026] “Plasticity at IS3 connections couples theta activity to its own disinhibitory output. [Caulinorocha2022] showed in young-adult Wistar rat CA1 that endogenous VIP acting through VPAC1 receptors (but not VPAC2) inhibits theta-burst-stimulation–induced LTP via GABAergic disinhibition, regulating CaMKII autophosphorylation and Kv4.2 channel phosphorylation. [Jabonska2026] complement this with non-Hebbian, heterosynaptic...”
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