{
"papers": [
{
"n": 0,
"doi": "10.1523/jneurosci.1202-25.2026",
"value": "increased burst, decreased tonic firing",
"method": "patch-clamp, calcium imaging",
"metric": "Burst vs tonic firing changes",
"n_analyzed": null,
"ci_or_error": null,
"text_access": "abstract_only",
"n_definition": "PV neurons recorded",
"scope_region": "thalamic reticular nucleus",
"study_system": "Shank3-/- mouse TRN",
"taxonomic_level": "broad category",
"scope_population": "PV-expressing neurons",
"value_source_sentence": "TRN PV neurons of Shank3-/- mice exhibit pronounced increases in burst firing occurrence, decreased tonic firing frequency, and faster dendritic calcium transient decay.",
"experimental_conditions": "Shank3 knockout"
},
{
"n": 0,
"doi": "10.1007/s12264-025-01458-5",
"value": "PV neurons modulate orientation selectivity",
"method": "optogenetics, in vivo electrophysiology",
"metric": "V1 orientation selectivity modulation",
"n_analyzed": null,
"ci_or_error": null,
"text_access": "fulltext",
"n_definition": "mice per condition",
"scope_region": "thalamic reticular nucleus to V1",
"study_system": "mouse TRN-dLGN-V1 circuit",
"taxonomic_level": "broad category",
"scope_population": "PV-expressing neurons",
"value_source_sentence": "SOM-positive and PV-positive neurons in the TRN are powerful modulators of visual information encoding in V1.",
"experimental_conditions": "optogenetic activation"
}
],
"comparison_id": "trn-pv-neuron-function",
"comparison_name": "TRN PV neuron excitability and circuit function",
"comparison_type": "convergent evidence",
"what_it_reveals": "TRN PV neurons serve dual roles in intrinsic excitability and circuit-level sensory gating",
"homogeneity_check": {
"caveats": [
"Different experimental paradigms"
],
"n_definition_uniform": "false",
"scope_region_uniform": "true",
"taxonomic_level_uniform": "true",
"scope_population_uniform": "true"
},
"suggested_plot_type": "grouped bar"
}