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- Live5/17/2026, 4:35:28 PM
0d860a73d019Content snapshot
{ "scope": "mouse neocortex in vivo, optogenetics", "claim_text": "Optogenetic inhibition of PV interneurons suppresses gamma oscillations in vivo, while driving PV interneurons generates emergent gamma-frequency rhythmicity, enhancing signal transmission by reducing circuit noise", "raw_fields": { "n": 0, "doi": "10.1038/nature07991", "claim": "Optogenetic inhibition of PV interneurons suppresses gamma oscillations in vivo, while driving PV interneurons generates emergent gamma-frequency rhythmicity, enhancing signal transmission by reducing circuit noise", "evidence": "Optogenetic inhibition of PV interneurons suppresses gamma oscillations in vivo, while driving PV interneurons generates emergent gamma-frequency rhythmicity, enhancing signal transmission by reducing circuit noise", "effect_size": "gamma-frequency modulation enhanced signal transmission by reducing circuit noise and amplifying circuit signals", "text_access": "fulltext", "study_system": "mouse neocortex in vivo, optogenetics", "replication_status": "independently_replicated", "claim_source_sentence": "We find that inhibiting parvalbumin interneurons suppresses gamma oscillations in vivo, whereas driving these interneurons (even by means of non-rhythmic principal cell activity) is sufficient to generate emergent gamma-frequency rhythmicity.", "replication_evidence_dois": [ "10.1038/nature08002", "10.1016/j.neuron.2017.11.033" ], "effect_size_source_sentence": "Moreover, gamma-frequency modulation of excitatory input in turn was found to enhance signal transmission in neocortex by reducing circuit noise and amplifying circuit signals, including inputs to parvalbumin interneurons." }, "section_id": "section_10_evidence_package", "source_url": "https://github.com/AllenNeuralDynamics/ComputationalReviewPV/blob/df9fc7e8d455b084152c9d713558dae0013cef21/evidence/section_10_evidence_package.json", "effect_size": "gamma-frequency modulation enhanced signal transmission by reducing circuit noise and amplifying circuit signals", "review_repo": "ComputationalReviewPV", "section_ref": "wiki_page:computationalreviewpv-10", "source_kind": "review_finding", "source_path": "evidence/section_10_evidence_package.json", "source_refs": [ "paper:paper-d5a7d63abc9a" ], "source_span": "We find that inhibiting parvalbumin interneurons suppresses gamma oscillations in vivo, whereas driving these interneurons (even by means of non-rhythmic principal cell activity) is sufficient to generate emergent gamma-frequency rhythmicity.", "study_system": "mouse neocortex in vivo, optogenetics", "evidence_refs": [ { "ref": "paper:paper-d5a7d63abc9a" } ], "section_title": "Oscillations and Network Dynamics: Gamma, Ripples, and Synchrony", "source_policy": { "mode": "public_source_pointer_with_short_context", "notes": [ "Local review repositories are read-only inputs.", "SciDEX stores paper metadata, structured evidence, file pointers, and short citation contexts; it does not copy full review prose." ], "source_commit_sha": "df9fc7e8d455b084152c9d713558dae0013cef21", "source_repository_url": "https://github.com/AllenNeuralDynamics/ComputationalReviewPV" }, "evidence_summary": "Optogenetic inhibition of PV interneurons suppresses gamma oscillations in vivo, while driving PV interneurons generates emergent gamma-frequency rhythmicity, enhancing signal transmission by reducing circuit noise", "review_bundle_ref": "analysis_bundle:ab-e6261c8263e7", "replication_status": "independently_replicated", "review_package_ref": "analysis_bundle:ab-e6261c8263e7", "source_artifact_ref": "wiki_page:computationalreviewpv-10", "origin_url": "https://github.com/AllenNeuralDynamics/ComputationalReviewPV/blob/df9fc7e8d455b084152c9d713558dae0013cef21/evidence/section_10_evidence_package.json", "commit_sha": "df9fc7e8d455b084152c9d713558dae0013cef21", "created_by": "persona-jerome-lecoq-gbo-neuroscience", "repository_url": "https://github.com/AllenNeuralDynamics/ComputationalReviewPV" }