Oscillatory Dynamics: Cell-Type Contributions to Temporal Coordination
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...
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2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...
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2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...
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2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 The mechanistic basis of PV-gamma coupling involves two competing models. In interneuron network gamma (ING), mutual inhibition among PV cells generates oscillations autonomously. In pyramidal-interneuron network gamma (PING), excitatory drive to PV cells is essential and the oscillation emerges from the E--I feedback loop. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 showed that the coupled oscillator model implemented with Wang-Buzsák...
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3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 The mechanistic basis of PV-gamma coupling involves two competing models. In interneuron network gamma (ING), mutual inhibition among PV cells generates oscillations autonomously. In pyramidal-interneuron network gamma (PING), excitatory drive to PV cells is essential and the oscillation emerges from the E--I feedback loop. 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 showed that the coupled oscillator model implemented with Wang-Buzsák...
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3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 The mechanistic basis of PV-gamma coupling involves two competing models. In interneuron network gamma (ING), mutual inhibition among PV cells generates oscillations autonomously. In pyramidal-interneuron network gamma (PING), excitatory drive to PV cells is essential and the oscillation emerges from the E--I feedback loop. 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 showed that the coupled oscillator model implemented with Wang-Buzsák...
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3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 The mechanistic basis of PV-gamma coupling involves two competing models. In interneuron network gamma (ING), mutual inhibition among PV cells generates oscillations autonomously. In pyramidal-interneuron network gamma (PING), excitatory drive to PV cells is essential and the oscillation emerges from the E--I feedback loop. 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 showed that the coupled oscillator model implemented with Wang-Buzsák...
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3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 The mechanistic basis of PV-gamma coupling involves two competing models. In interneuron network gamma (ING), mutual inhibition among PV cells generates oscillations autonomously. In pyramidal-interneuron network gamma (PING), excitatory drive to PV cells is essential and the oscillation emerges from the E--I feedback loop. 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 showed that the coupled oscillator model implemented with Wang-Buzsák...
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3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...
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4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations (460 \pm 30 pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV→gamma, SST→beta mapping and suggests that different oscillatory phenomena engage different combinations of...
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4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations (460 \pm 30 pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV→gamma, SST→beta mapping and suggests that different oscillatory phenomena engage different combinations of...
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4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations (460 \pm 30 pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV→gamma, SST→beta mapping and suggests that different oscillatory phenomena engage different combinations of...
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4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations (460 \pm 30 pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV→gamma, SST→beta mapping and suggests that different oscillatory phenomena engage different combinations of...
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4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations (460 \pm 30 pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV→gamma, SST→beta mapping and suggests that different oscillatory phenomena engage different combinations of...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations (460 \pm 30 pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV→gamma, SST→beta mapping and suggests that different oscillatory phenomena engage different combinations of...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range (530 \pm 90 \muV^2 peak power). This scaling operates through the disinhibitory VIP→SST pathway discussed in Sectio...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range (530 \pm 90 \muV^2 peak power). This scaling operates through the disinhibitory VIP→SST pathway discussed in Sectio...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range (530 \pm 90 \muV^2 peak power). This scaling operates through the disinhibitory VIP→SST pathway discussed in Sectio...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range (530 \pm 90 \muV^2 peak power). This scaling operates through the disinhibitory VIP→SST pathway discussed in Sectio...
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5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. 5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range (530 \pm 90 \muV^2 peak power). This scaling operates through the disinhibitory VIP→SST pathway discussed in Sectio...
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5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. 5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range (530 \pm 90 \muV^2 peak power). This scaling operates through the disinhibitory VIP→SST pathway discussed in Sectio...
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5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. 5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 showed that optically induced fluctuating currents have a low cutoff of \sim70 Hz, limiting the dynamic range of frequency response and po...
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5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. 5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 showed that optically induced fluctuating currents have a low cutoff of \sim70 Hz, limiting the dynamic range of frequency response and po...
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5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. 5CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 showed that optically induced fluctuating currents have a low cutoff of \sim70 Hz, limiting the dynamic range of frequency response and po...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference0 A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference1 showed that optically induced fluctuating currents have a low cutoff of \sim70 Hz, limiting the dynamic range of frequency response and po...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference2 A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference3 showed that optically induced fluctuating currents have a low cutoff of \sim70 Hz, limiting the dynamic range of frequency response and po...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference4 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference5 directly addressed this concern by comparing different optogenetic tools expressed in the same cell types in the same brain region, finding that although all tools were effective at eliciting action potentials, they evoked distinct patterns of activity and had different effects on network oscillations (peak effect at 74.3 \pm 3.5 Hz). This result demonstrates that the oscillatory consequences of optogene...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference6 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference7 directly addressed this concern by comparing different optogenetic tools expressed in the same cell types in the same brain region, finding that although all tools were effective at eliciting action potentials, they evoked distinct patterns of activity and had different effects on network oscillations (peak effect at 74.3 \pm 3.5 Hz). This result demonstrates that the oscillatory consequences of optogene...
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1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference8 1CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 2CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 3CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference, 4CitationDifferent interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...content/09_oscillatory_dynamics.md:line 4Open reference9 directly addressed this concern by comparing different optogenetic tools expressed in the same cell types in the same brain region, finding that although all tools were effective at eliciting action potentials, they evoked distinct patterns of activity and had different effects on network oscillations (peak effect at 74.3 \pm 3.5 Hz). This result demonstrates that the oscillatory consequences of optogene...
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... 40 additional anchors in refs_json
References
- [Chen2017] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Cardin2009] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Veit2023] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Veit2017] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Sohal2012] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Ichim2024] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Malyshev2015] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Gonzalez-Burgos2015] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Dienel2019] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Senzai2019] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Tikidji-Hamburyan2015] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Via2022] “Different interneuron types associate with different oscillatory bands—PV with gamma (20--80 Hz), SST with beta and low-gamma (5--30 Hz), VIP with modulation of gamma power—but these associations are neither exclusive nor straightforward [Chen2017, Cardin2009, Veit2023, Veit2017] The PV-gamma link, established by landmark optogenetic experiments, has been complicated by findings that SST interneurons are critical fo...”
- [Dilgen2013] “The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. [Cardin2009] showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...”
- [Williams2025a] “The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. [Cardin2009] showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...”
- [Tiesinga2009] “The association between PV interneurons and cortical gamma oscillations is one of the most replicated findings in the cell-type-specific literature. [Cardin2009] showed that light-driven activation of fast-spiking interneurons at varied frequencies (8--200 Hz) selectively amplified gamma oscillations in the 20--80 Hz range in barrel cortex, while activation of excitatory neurons amplified only lower-frequency rhythm...”
- [Milicevic2024] “The mechanistic basis of PV-gamma coupling involves two competing models. In interneuron network gamma (ING), mutual inhibition among PV cells generates oscillations autonomously. In pyramidal-interneuron network gamma (PING), excitatory drive to PV cells is essential and the oscillation emerges from the E--I feedback loop. [Tikidji-Hamburyan2015] showed that the coupled oscillator model implemented with Wang-Buzsák...”
- [Powanwe2019] “The mechanistic basis of PV-gamma coupling involves two competing models. In interneuron network gamma (ING), mutual inhibition among PV cells generates oscillations autonomously. In pyramidal-interneuron network gamma (PING), excitatory drive to PV cells is essential and the oscillation emerges from the E--I feedback loop. [Tikidji-Hamburyan2015] showed that the coupled oscillator model implemented with Wang-Buzsák...”
- [Hahn2022] “The mechanistic basis of PV-gamma coupling involves two competing models. In interneuron network gamma (ING), mutual inhibition among PV cells generates oscillations autonomously. In pyramidal-interneuron network gamma (PING), excitatory drive to PV cells is essential and the oscillation emerges from the E--I feedback loop. [Tikidji-Hamburyan2015] showed that the coupled oscillator model implemented with Wang-Buzsák...”
- [Antonoudiou2020] “The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. [Chen2017] recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...”
- [Onorato2025] “The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. [Chen2017] recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...”
- [Tong2026] “The dominant PV-gamma narrative has been challenged by findings that SST interneurons are critical for specific gamma rhythms. [Chen2017] recorded optogenetically tagged interneurons in behaving mice and showed that somatostatin and parvalbumin interneurons preferentially correlate with distinct oscillatory bands: SST spiking showed peak correlation at beta frequencies (5--30 Hz), while PV spiking correlated with br...”
- [Hu2015] “[Antonoudiou2020] showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations ($460 \pm 30$ pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV$→$gamma, SST$→$beta mapping and suggests that different oscillatory phenomena engage different combinations of...”
- [ChristensonWick2019] “[Antonoudiou2020] showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations ($460 \pm 30$ pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV$→$gamma, SST$→$beta mapping and suggests that different oscillatory phenomena engage different combinations of...”
- [VanDerveer2021] “[Antonoudiou2020] showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations ($460 \pm 30$ pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV$→$gamma, SST$→$beta mapping and suggests that different oscillatory phenomena engage different combinations of...”
- [Hartwich2009] “[Antonoudiou2020] showed that causal disruption of either PV or SST interneuron activity impairs the generation of slow gamma oscillations ($460 \pm 30$ pA inhibitory current) in the ventral hippocampus, demonstrating that both cell types are necessary—not just PV alone. This finding challenges the clean PV$→$gamma, SST$→$beta mapping and suggests that different oscillatory phenomena engage different combinations of...”
- [Tuna2025] “VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. [Veit2023] combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range ($530 \pm 90$ $\mu$V$^2$ peak power). This scaling operates through the disinhibitory VIP$→$SST pathway discussed in Sectio...”
- [Zhang2024b] “VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. [Veit2023] combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range ($530 \pm 90$ $\mu$V$^2$ peak power). This scaling operates through the disinhibitory VIP$→$SST pathway discussed in Sectio...”
- [Chattopadhyaya2025] “VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. [Veit2023] combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range ($530 \pm 90$ $\mu$V$^2$ peak power). This scaling operates through the disinhibitory VIP$→$SST pathway discussed in Sectio...”
- [Rolle2025] “VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. [Veit2023] combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range ($530 \pm 90$ $\mu$V$^2$ peak power). This scaling operates through the disinhibitory VIP$→$SST pathway discussed in Sectio...”
- [Wagatsuma2025] “VIP interneurons contribute to oscillatory dynamics primarily through modulation rather than direct generation. [Veit2023] combined electrophysiology, optogenetics, and computational modeling to show that VIP interneurons linearly scale gamma power locally in mouse V1 within the 25--40 Hz range ($530 \pm 90$ $\mu$V$^2$ peak power). This scaling operates through the disinhibitory VIP$→$SST pathway discussed in Sectio...”
- [Williams2026] “A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. [Malyshev2015] showed that optically induced fluctuating currents have a low cutoff of $\sim$70 Hz, limiting the dynamic range of frequency response and po...”
- [Antinucci2020] “A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. [Malyshev2015] showed that optically induced fluctuating currents have a low cutoff of $\sim$70 Hz, limiting the dynamic range of frequency response and po...”
- [Jun2020] “A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. [Malyshev2015] showed that optically induced fluctuating currents have a low cutoff of $\sim$70 Hz, limiting the dynamic range of frequency response and po...”
- [Roos2025] “A critical methodological caveat pervades the entire literature on cell-type-specific contributions to oscillations: the kinetics of channelrhodopsin-2 (ChR2), the most widely used optogenetic actuator, impose an intrinsic frequency preference in the gamma range. [Malyshev2015] showed that optically induced fluctuating currents have a low cutoff of $\sim$70 Hz, limiting the dynamic range of frequency response and po...”
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