Cell-Type-Specific Inhibition in Cortical Processing: Gain Control, Feature Selectivity, and Sensory Computation
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1CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...
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10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference The question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference0 The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference1 The question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference2 The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference3 The question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference4 The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference5 The question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference6 The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference7 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference8 found that orientation tuning of putative V1 pyramidal neurons showed a similar pattern of divisive scaling whether all interneuron types were activated simultaneously or PV interneurons were activated selectively, with an orientation selectivity index change of 0.24. This result supported the divisive gain model. In contrast, 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference9 evaluated both subtractive and divisive models in auditory cort...
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3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference0 3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference1 found that orientation tuning of putative V1 pyramidal neurons showed a similar pattern of divisive scaling whether all interneuron types were activated simultaneously or PV interneurons were activated selectively, with an orientation selectivity index change of 0.24. This result supported the divisive gain model. In contrast, 3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference2 evaluated both subtractive and divisive models in auditory cort...
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3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference3 3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference4 found that orientation tuning of putative V1 pyramidal neurons showed a similar pattern of divisive scaling whether all interneuron types were activated simultaneously or PV interneurons were activated selectively, with an orientation selectivity index change of 0.24. This result supported the divisive gain model. In contrast, 3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference5 evaluated both subtractive and divisive models in auditory cort...
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3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference6 3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference7 found that orientation tuning of putative V1 pyramidal neurons showed a similar pattern of divisive scaling whether all interneuron types were activated simultaneously or PV interneurons were activated selectively, with an orientation selectivity index change of 0.24. This result supported the divisive gain model. In contrast, 3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference8 evaluated both subtractive and divisive models in auditory cort...
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3CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference9 The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. 4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference0 provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC→VIP⊣SST⊣PC feedback loop at small stimulus size and low contrast to a negative PC→SST⊣PC feedback loop at...
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4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference1 The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. 4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference2 provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC→VIP⊣SST⊣PC feedback loop at small stimulus size and low contrast to a negative PC→SST⊣PC feedback loop at...
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4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference3 The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. 4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference4 provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC→VIP⊣SST⊣PC feedback loop at small stimulus size and low contrast to a negative PC→SST⊣PC feedback loop at...
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4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference5 The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. 4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference6 provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC→VIP⊣SST⊣PC feedback loop at small stimulus size and low contrast to a negative PC→SST⊣PC feedback loop at...
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4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference7 The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. 4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference8 provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC→VIP⊣SST⊣PC feedback loop at small stimulus size and low contrast to a negative PC→SST⊣PC feedback loop at...
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4CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference9 The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. 5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference0 provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC→VIP⊣SST⊣PC feedback loop at small stimulus size and low contrast to a negative PC→SST⊣PC feedback loop at...
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5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference1 The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. 5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference2 provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC→VIP⊣SST⊣PC feedback loop at small stimulus size and low contrast to a negative PC→SST⊣PC feedback loop at...
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5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference3 PV-mediated gain control varies across studies from purely divisive to context-dependent, depending on stimulus conditions, cortical area, and stimulation parameters. Early studies reported either divisive 5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference4 or contrast-dependent effects 5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference5; more recent work emphasizes that the gain operation depends on the network’s operating regime 5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference6. All studies used opt...
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5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference7 PV-mediated gain control varies across studies from purely divisive to context-dependent, depending on stimulus conditions, cortical area, and stimulation parameters. Early studies reported either divisive 5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference8 or contrast-dependent effects 5CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference9; more recent work emphasizes that the gain operation depends on the network’s operating regime 6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference0. All studies used opt...
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6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference1 PV-mediated gain control varies across studies from purely divisive to context-dependent, depending on stimulus conditions, cortical area, and stimulation parameters. Early studies reported either divisive 6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference2 or contrast-dependent effects 6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference3; more recent work emphasizes that the gain operation depends on the network’s operating regime 6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference4. All studies used opt...
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6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference5 PV-mediated gain control varies across studies from purely divisive to context-dependent, depending on stimulus conditions, cortical area, and stimulation parameters. Early studies reported either divisive 6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference6 or contrast-dependent effects 6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference7; more recent work emphasizes that the gain operation depends on the network’s operating regime 6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference8. All studies used opt...
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6CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference9 PV-mediated gain control varies across studies from purely divisive to context-dependent, depending on stimulus conditions, cortical area, and stimulation parameters. Early studies reported either divisive 7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference0 or contrast-dependent effects 7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference1; more recent work emphasizes that the gain operation depends on the network’s operating regime 7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference2. All studies used opt...
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7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference3 The canonical view holds that PV interneurons are broadly tuned for stimulus features, providing unselective blanket inhibition that sharpens pyramidal cell selectivity. Evidence from mouse V1 largely supports this description 7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference4, with calretinin-expressing interneurons exhibiting reduced orientation selectivity (index 0.82) relative to pyramidal cells. However, this character...
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7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference5 The canonical view holds that PV interneurons are broadly tuned for stimulus features, providing unselective blanket inhibition that sharpens pyramidal cell selectivity. Evidence from mouse V1 largely supports this description 7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference6, with calretinin-expressing interneurons exhibiting reduced orientation selectivity (index 0.82) relative to pyramidal cells. However, this character...
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7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference7 The canonical view holds that PV interneurons are broadly tuned for stimulus features, providing unselective blanket inhibition that sharpens pyramidal cell selectivity. Evidence from mouse V1 largely supports this description 7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference8, with calretinin-expressing interneurons exhibiting reduced orientation selectivity (index 0.82) relative to pyramidal cells. However, this character...
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7CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference9 8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference0 demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. 8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference1 confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by 8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference2, who showed t...
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8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference3 8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference4 demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. 8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference5 confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by 8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference6, who showed t...
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8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference7 8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference8 demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. 8CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference9 confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by 9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference0, who showed t...
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9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference1 9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference2 demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. 9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference3 confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by 9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference4, who showed t...
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9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference5 9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference6 demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. 9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference7 confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by 9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference8, who showed t...
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9CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference9 10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference0 demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. 10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference1 confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by 10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference2, who showed t...
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10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference3 The relationship between feature selectivity and prediction has emerged as a separate axis. 10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference4 showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while 10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference5 showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...
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10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference6 The relationship between feature selectivity and prediction has emerged as a separate axis. 10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference7 showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while 10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference8 showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...
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10CitationThe question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...content/08_invivo_processing.md:line 9Open reference9 The relationship between feature selectivity and prediction has emerged as a separate axis. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference00 showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference01 showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference02 The relationship between feature selectivity and prediction has emerged as a separate axis. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference03 showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference04 showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference05 The relationship between feature selectivity and prediction has emerged as a separate axis. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference06 showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference07 showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference08 The relationship between feature selectivity and prediction has emerged as a separate axis. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference09 showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference10 showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference11 Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference12 provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference13 who showed that many V1 neurons are suppressed by stimuli surrounding their...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference14 Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference15 provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference16 who showed that many V1 neurons are suppressed by stimuli surrounding their...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference17 Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference18 provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference19 who showed that many V1 neurons are suppressed by stimuli surrounding their...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference20 Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference21 provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference22 who showed that many V1 neurons are suppressed by stimuli surrounding their...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference23 Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference24 provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference25 who showed that many V1 neurons are suppressed by stimuli surrounding their...
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2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference26 Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference27 provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by 2CitationAttributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...content/08_invivo_processing.md:line 4Open reference28 who showed that many V1 neurons are suppressed by stimuli surrounding their...
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References
- [Ingram2019] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Seybold2015] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Heintz2022] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Cooke2020] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Moore2013] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Gothner2019] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Li2015] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Brunner2024] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Torres-Gomez2020] “Attributing specific computational operations to specific interneuron types is among the most appealing simplifications in cortical neuroscience. The textbook narrative maps neatly: PV interneurons provide divisive gain control through perisomatic inhibition, SST interneurons gate dendritic input to shape feature selectivity, and VIP interneurons disinhibit pyramidal cells to modulate cortical state. Yet the empiric...”
- [Tiesinga2009] “The question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...”
- [El-Boustani2014] “The question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...”
- [Iqbal2024] “The question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...”
- [Nemati2025b] “The question of whether PV interneurons implement divisive or subtractive gain control has occupied the field for over a decade, producing directly contradictory results from technically sophisticated laboratories [Tiesinga2009, El-Boustani2014] The initial framing arose from two landmark 2012 studies that reached opposite conclusions using similar optogenetic approaches in mouse V1. Subsequent work has not resolved...”
- [Phillips2016] “[Ingram2019] found that orientation tuning of putative V1 pyramidal neurons showed a similar pattern of divisive scaling whether all interneuron types were activated simultaneously or PV interneurons were activated selectively, with an orientation selectivity index change of 0.24. This result supported the divisive gain model. In contrast, [Seybold2015] evaluated both subtractive and divisive models in auditory cort...”
- [Mossing2021] “The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. [Mossing2021] provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC$→$VIP$⊣$SST$⊣$PC feedback loop at small stimulus size and low contrast to a negative PC$→$SST$⊣$PC feedback loop at...”
- [Litwin-Kumar2016] “The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. [Mossing2021] provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC$→$VIP$⊣$SST$⊣$PC feedback loop at small stimulus size and low contrast to a negative PC$→$SST$⊣$PC feedback loop at...”
- [Bos2025] “The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. [Mossing2021] provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC$→$VIP$⊣$SST$⊣$PC feedback loop at small stimulus size and low contrast to a negative PC$→$SST$⊣$PC feedback loop at...”
- [Hinojosa2025] “The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. [Mossing2021] provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC$→$VIP$⊣$SST$⊣$PC feedback loop at small stimulus size and low contrast to a negative PC$→$SST$⊣$PC feedback loop at...”
- [Krause2019] “The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. [Mossing2021] provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC$→$VIP$⊣$SST$⊣$PC feedback loop at small stimulus size and low contrast to a negative PC$→$SST$⊣$PC feedback loop at...”
- [Valverde2020] “The resolution emerging from this body of work is that PV interneurons do not implement a single canonical gain operation. [Mossing2021] provided perhaps the most integrative account, showing through combined optogenetics and modeling that recurrent amplification drives a transition from a positive PC$→$VIP$⊣$SST$⊣$PC feedback loop at small stimulus size and low contrast to a negative PC$→$SST$⊣$PC feedback loop at...”
- [Cardin2009] “The canonical view holds that PV interneurons are broadly tuned for stimulus features, providing unselective blanket inhibition that sharpens pyramidal cell selectivity. Evidence from mouse V1 largely supports this description [Cardin2009, Camillo2018, El-Boustani2014], with calretinin-expressing interneurons exhibiting reduced orientation selectivity (index 0.82) relative to pyramidal cells. However, this character...”
- [Camillo2018] “The canonical view holds that PV interneurons are broadly tuned for stimulus features, providing unselective blanket inhibition that sharpens pyramidal cell selectivity. Evidence from mouse V1 largely supports this description [Cardin2009, Camillo2018, El-Boustani2014], with calretinin-expressing interneurons exhibiting reduced orientation selectivity (index 0.82) relative to pyramidal cells. However, this character...”
- [Slater2020b] “[Moore2013] demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. [Li2015] confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by [Slater2020b], who showed t...”
- [Fink2024] “[Moore2013] demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. [Li2015] confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by [Slater2020b], who showed t...”
- [Zhang2023a] “[Moore2013] demonstrated that PV interneurons in auditory cortex were well tuned for sound frequency, though very tightly tuned PV cells were rare. [Li2015] confirmed that PV cells exhibited broader tonal receptive fields with lower intensity thresholds compared to pyramidal cells, but the difference was quantitative rather than qualitative. This area dependence was further underscored by [Slater2020b], who showed t...”
- [Furutachi2024] “The relationship between feature selectivity and prediction has emerged as a separate axis. [Furutachi2024] showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while [Huang2025] showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...”
- [Huang2025] “The relationship between feature selectivity and prediction has emerged as a separate axis. [Furutachi2024] showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while [Huang2025] showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...”
- [Natan2015] “The relationship between feature selectivity and prediction has emerged as a separate axis. [Furutachi2024] showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while [Huang2025] showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...”
- [Natan2017] “The relationship between feature selectivity and prediction has emerged as a separate axis. [Furutachi2024] showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while [Huang2025] showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...”
- [Mehra2022] “The relationship between feature selectivity and prediction has emerged as a separate axis. [Furutachi2024] showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while [Huang2025] showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...”
- [Bastos2023] “The relationship between feature selectivity and prediction has emerged as a separate axis. [Furutachi2024] showed that violating predictions preferentially boosts responses of the most selective layer 2/3 V1 neurons (effect size 0.27), while [Huang2025] showed computationally that SST neurons mediate feature-specific dendritic inhibition under expected conditions. Stimulus-specific adaptation in auditory cortex fur...”
- [Li2018] “Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. [Li2018] provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by [Vaiceliunaite2013] who showed that many V1 neurons are suppressed by stimuli surrounding their...”
- [Vaiceliunaite2013] “Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. [Li2018] provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by [Vaiceliunaite2013] who showed that many V1 neurons are suppressed by stimuli surrounding their...”
- [Lakunina2020] “Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. [Li2018] provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by [Vaiceliunaite2013] who showed that many V1 neurons are suppressed by stimuli surrounding their...”
- [Lakunina2022] “Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. [Li2018] provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by [Vaiceliunaite2013] who showed that many V1 neurons are suppressed by stimuli surrounding their...”
- [Park2020b] “Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. [Li2018] provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by [Vaiceliunaite2013] who showed that many V1 neurons are suppressed by stimuli surrounding their...”
- [Shen2022] “Surround suppression—the reduction of neural responses when stimuli extend beyond the classical receptive field—has been attributed primarily to SST interneurons. [Li2018] provided direct evidence in mouse V1 showing that surround modulation operates through an SST-dependent mechanism, a finding independently supported by [Vaiceliunaite2013] who showed that many V1 neurons are suppressed by stimuli surrounding their...”
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