In Vivo Function During Behavior
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Citation anchors captured: 162
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1CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev... -
3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev... -
4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev... -
5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev... -
6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference The discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference The discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...
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7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference The discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference The discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...
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2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference0 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference1 further elaborated the locomotion mechanism, proposing a model in which three interacting factors produce the observed modulation: variations in the strength of PV and SST connectivity to individual pyramidal cells, broad locomotion-dependent weakening of SST inhibitory drive, and differential baseline sensitivity across neurons 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference2. This model accounts for an apparently paradoxical observa... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference3 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference4 further elaborated the locomotion mechanism, proposing a model in which three interacting factors produce the observed modulation: variations in the strength of PV and SST connectivity to individual pyramidal cells, broad locomotion-dependent weakening of SST inhibitory drive, and differential baseline sensitivity across neurons 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference5. This model accounts for an apparently paradoxical observa... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference6 However, even within V1, the relationship between locomotion and SST activity is not as straightforward as initial reports suggested. 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference7 found that while SST neurons were indeed suppressed during locomotion in the absence of visual stimulation, this pattern reversed when visual stimuli were present: locomotion increased SST cell responses to large stimuli and VIP cell responses to small stimuli [Dipoppa20... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference8 However, even within V1, the relationship between locomotion and SST activity is not as straightforward as initial reports suggested. 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference9 found that while SST neurons were indeed suppressed during locomotion in the absence of visual stimulation, this pattern reversed when visual stimuli were present: locomotion increased SST cell responses to large stimuli and VIP cell responses to small stimuli [Dipoppa20... -
3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference0 However, even within V1, the relationship between locomotion and SST activity is not as straightforward as initial reports suggested. 3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference1 found that while SST neurons were indeed suppressed during locomotion in the absence of visual stimulation, this pattern reversed when visual stimuli were present: locomotion increased SST cell responses to large stimuli and VIP cell responses to small stimuli [Dipoppa20... -
3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference2 However, even within V1, the relationship between locomotion and SST activity is not as straightforward as initial reports suggested. 3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference3 found that while SST neurons were indeed suppressed during locomotion in the absence of visual stimulation, this pattern reversed when visual stimuli were present: locomotion increased SST cell responses to large stimuli and VIP cell responses to small stimuli [Dipoppa20... -
3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference4 However, even within V1, the relationship between locomotion and SST activity is not as straightforward as initial reports suggested. 3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference5 found that while SST neurons were indeed suppressed during locomotion in the absence of visual stimulation, this pattern reversed when visual stimuli were present: locomotion increased SST cell responses to large stimuli and VIP cell responses to small stimuli [Dipoppa20... -
3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference6 However, even within V1, the relationship between locomotion and SST activity is not as straightforward as initial reports suggested. 3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference7 found that while SST neurons were indeed suppressed during locomotion in the absence of visual stimulation, this pattern reversed when visual stimuli were present: locomotion increased SST cell responses to large stimuli and VIP cell responses to small stimuli [Dipoppa20... -
3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference8 The generalizability of V1 locomotion findings to other cortical areas has been directly tested, with results that expose fundamental area differences. 3CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference9 compared behavioral modulation of SST neurons across cortical areas and found that SST activity is not similarly modulated by behavioral state across different levels of the cortical processing hierarchy 4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference0. In auditory cortex, SST... -
4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference1 The generalizability of V1 locomotion findings to other cortical areas has been directly tested, with results that expose fundamental area differences. 4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference2 compared behavioral modulation of SST neurons across cortical areas and found that SST activity is not similarly modulated by behavioral state across different levels of the cortical processing hierarchy 4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference3. In auditory cortex, SST... -
4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference4 The generalizability of V1 locomotion findings to other cortical areas has been directly tested, with results that expose fundamental area differences. 4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference5 compared behavioral modulation of SST neurons across cortical areas and found that SST activity is not similarly modulated by behavioral state across different levels of the cortical processing hierarchy 4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference6. In auditory cortex, SST... -
4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference7 In somatosensory cortex, 4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference8 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 4CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference9. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi... -
5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference0 In somatosensory cortex, 5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference1 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference2. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi... -
5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference3 In somatosensory cortex, 5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference4 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference5. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi... -
5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference6 In somatosensory cortex, 5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference7 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference8. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi... -
5CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference9 In somatosensory cortex, 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference0 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference1. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference2 In somatosensory cortex, 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference3 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference4. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference5 In somatosensory cortex, 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference6 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference7. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference8 In somatosensory cortex, 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference9 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference0. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi... -
6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference1 In somatosensory cortex, 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference2 established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference3. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference4 The prefrontal cortex presents perhaps the most striking departure from the V1 locomotion paradigm. prior studies used optogenetic tagging and electrophysiology to show that SST neurons in PFC exhibit choice-specific rather than locomotion-related modulation. 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference5 extended this finding, demonstrating that SST neurons conveyed cue-associated quantitative value signals until trial outcome, whereas PV neurons ma...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference6 The prefrontal cortex presents perhaps the most striking departure from the V1 locomotion paradigm. prior studies used optogenetic tagging and electrophysiology to show that SST neurons in PFC exhibit choice-specific rather than locomotion-related modulation. 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference7 extended this finding, demonstrating that SST neurons conveyed cue-associated quantitative value signals until trial outcome, whereas PV neurons ma...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference8 The prefrontal cortex presents perhaps the most striking departure from the V1 locomotion paradigm. prior studies used optogenetic tagging and electrophysiology to show that SST neurons in PFC exhibit choice-specific rather than locomotion-related modulation. 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference9 extended this finding, demonstrating that SST neurons conveyed cue-associated quantitative value signals until trial outcome, whereas PV neurons ma...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference0 The prefrontal cortex presents perhaps the most striking departure from the V1 locomotion paradigm. prior studies used optogenetic tagging and electrophysiology to show that SST neurons in PFC exhibit choice-specific rather than locomotion-related modulation. 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference1 extended this finding, demonstrating that SST neurons conveyed cue-associated quantitative value signals until trial outcome, whereas PV neurons ma...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference2 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference3 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference4. In auditory cortex, 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference5 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference6 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference7 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference8. In auditory cortex, 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference9 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...
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7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference0 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference1 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference2. In auditory cortex, 7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference3 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...
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7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference4 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference5 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference6. In auditory cortex, 7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference7 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...
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7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference8 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 7CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference9 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference0. In auditory cortex, 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference1 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference2 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference3 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference4. In auditory cortex, 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference5 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...
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6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference6 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference7 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference8. In auditory cortex, 6CitationThe discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...content/08_invivo_function.md:line 11Open reference9 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...
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2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference00 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference01 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference02. In auditory cortex, 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference03 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference04 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference05 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference06. In auditory cortex, 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference07 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference08 Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference09 found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference10. In auditory cortex, 2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference11 showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference12 Cross-area comparison of SST interneuron modulation during active behavior. Each entry represents a study examining SST neuron responses during behavioral engagement in the indicated cortical area. In V1, SST neurons are robustly suppressed during locomotion (though this reverses with large visual stimuli), whereas S1 SST neurons show mixed responses including unique hyperpolarization properties, A1 SST neurons dive... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference13 Cross-area comparison of SST interneuron modulation during active behavior. Each entry represents a study examining SST neuron responses during behavioral engagement in the indicated cortical area. In V1, SST neurons are robustly suppressed during locomotion (though this reverses with large visual stimuli), whereas S1 SST neurons show mixed responses including unique hyperpolarization properties, A1 SST neurons dive... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference14 Cross-area comparison of SST interneuron modulation during active behavior. Each entry represents a study examining SST neuron responses during behavioral engagement in the indicated cortical area. In V1, SST neurons are robustly suppressed during locomotion (though this reverses with large visual stimuli), whereas S1 SST neurons show mixed responses including unique hyperpolarization properties, A1 SST neurons dive... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference15 Cross-area comparison of SST interneuron modulation during active behavior. Each entry represents a study examining SST neuron responses during behavioral engagement in the indicated cortical area. In V1, SST neurons are robustly suppressed during locomotion (though this reverses with large visual stimuli), whereas S1 SST neurons show mixed responses including unique hyperpolarization properties, A1 SST neurons dive... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference16 Cross-area comparison of SST interneuron modulation during active behavior. Each entry represents a study examining SST neuron responses during behavioral engagement in the indicated cortical area. In V1, SST neurons are robustly suppressed during locomotion (though this reverses with large visual stimuli), whereas S1 SST neurons show mixed responses including unique hyperpolarization properties, A1 SST neurons dive... -
2CitationThe circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}
sec-circuit-motifs) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...content/08_invivo_function.md:line 3Open reference17 Cross-area comparison of SST interneuron modulation during active behavior. Each entry represents a study examining SST neuron responses during behavioral engagement in the indicated cortical area. In V1, SST neurons are robustly suppressed during locomotion (though this reverses with large visual stimuli), whereas S1 SST neurons show mixed responses including unique hyperpolarization properties, A1 SST neurons dive... -
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References
- [Khoury2023] “The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}`sec-circuit-motifs`) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...”
- [Dipoppa2018] “The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}`sec-circuit-motifs`) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...”
- [Pi2013] “The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}`sec-circuit-motifs`) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...”
- [Lee2013] “The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}`sec-circuit-motifs`) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...”
- [Letzkus2011] “The circuit motifs defined in reduced preparations — gain control, surround suppression, and VIP-mediated disinhibition ({ref}`sec-circuit-motifs`) — make specific predictions about how SST interneurons should behave during active behavior. Testing these predictions in vivo has proven more complex than anticipated. Rather than confirming a unified functional role for SST neurons across cortex, in vivo recordings rev...”
- [Heintz2022] “The discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...”
- [Heintz2020] “The discovery that locomotion suppresses SST interneurons in mouse V1 established a foundational framework for understanding state-dependent SST modulation. it has been demonstrated using calcium imaging that SST neurons in V1 are suppressed during locomotion, and that this suppression — mediated through VIP→SST inhibition — enables adult ocular dominance plasticity that is normally restricted to the critical period...”
- [Hinojosa2025] “[Hinojosa2025] further elaborated the locomotion mechanism, proposing a model in which three interacting factors produce the observed modulation: variations in the strength of PV and SST connectivity to individual pyramidal cells, broad locomotion-dependent weakening of SST inhibitory drive, and differential baseline sensitivity across neurons [Hinojosa2025]. This model accounts for an apparently paradoxical observa...”
- [Wu2025] “However, even within V1, the relationship between locomotion and SST activity is not as straightforward as initial reports suggested. [Dipoppa2018] found that while SST neurons were indeed suppressed during locomotion in the absence of visual stimulation, this pattern reversed when visual stimuli were present: locomotion increased SST cell responses to large stimuli and VIP cell responses to small stimuli [Dipoppa20...”
- [OConnor2022] “However, even within V1, the relationship between locomotion and SST activity is not as straightforward as initial reports suggested. [Dipoppa2018] found that while SST neurons were indeed suppressed during locomotion in the absence of visual stimulation, this pattern reversed when visual stimuli were present: locomotion increased SST cell responses to large stimuli and VIP cell responses to small stimuli [Dipoppa20...”
- [Gentet2012] “In somatosensory cortex, [Gentet2012] established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes [Gentet2012]. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi...”
- [Kiritani2023] “In somatosensory cortex, [Gentet2012] established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes [Gentet2012]. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi...”
- [Guy2023] “In somatosensory cortex, [Gentet2012] established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes [Gentet2012]. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi...”
- [Feyerabend2025] “In somatosensory cortex, [Gentet2012] established through in vivo whole-cell recordings that SST interneurons possess unique functional properties including lower spontaneous firing rates and greater sensory-evoked hyperpolarization compared to other interneuron classes [Gentet2012]. These intrinsic differences in baseline activity and sensory responsiveness mean that the same neuromodulatory input (e.g., cholinergi...”
- [Jeong2020] “The prefrontal cortex presents perhaps the most striking departure from the V1 locomotion paradigm. prior studies used optogenetic tagging and electrophysiology to show that SST neurons in PFC exhibit choice-specific rather than locomotion-related modulation. [Jeong2020] extended this finding, demonstrating that SST neurons conveyed cue-associated quantitative value signals until trial outcome, whereas PV neurons ma...”
- [Boroujeni2026] “The prefrontal cortex presents perhaps the most striking departure from the V1 locomotion paradigm. prior studies used optogenetic tagging and electrophysiology to show that SST neurons in PFC exhibit choice-specific rather than locomotion-related modulation. [Jeong2020] extended this finding, demonstrating that SST neurons conveyed cue-associated quantitative value signals until trial outcome, whereas PV neurons ma...”
- [Zhang2021a] “Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where [Zhang2021a] found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals [Zhang2021a, Zhang2021b]. In auditory cortex, [Tobin2025] showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...”
- [Zhang2021b] “Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where [Zhang2021a] found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals [Zhang2021a, Zhang2021b]. In auditory cortex, [Tobin2025] showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...”
- [Tobin2025] “Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where [Zhang2021a] found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals [Zhang2021a, Zhang2021b]. In auditory cortex, [Tobin2025] showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...”
- [Tang2025a] “Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where [Zhang2021a] found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals [Zhang2021a, Zhang2021b]. In auditory cortex, [Tobin2025] showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...”
- [Ding2026] “Additional evidence for area-specific SST modulation comes from studies of frontal cortex during motor preparation, where [Zhang2021a] found that the interplay between PV and SST interneurons shapes task-dependent preparatory signals [Zhang2021a, Zhang2021b]. In auditory cortex, [Tobin2025] showed that distinct inhibitory neurons differently shape neuronal codes for sound intensity, with VIP activation causing overl...”
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