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- Live5/17/2026, 4:35:28 PM
e9581f82ead7Content snapshot
{ "field_tag": "excitatory-recurrence", "text": "What resolves this contention: Bock 2011 concludes that E→I convergence in mouse V1 is non-selective with respect to orientation, while Lee 2016 (same EM platform but E→E network) reports strong orientation-based preference among excitatory pyramidal pairs. The studies do not contradict each other once cell-type identity is fixed (E→I vs E→E), but they jointly imply that wiring rules depend critically on the postsynaptic class — a fact often elided in network models. / In particular, we tested a prediction from recent physiological work–, cf.,: that inhibitory interneurons in the mouse primary visual cortex receive dense, convergent input from nearby excitatory (pyramidal) neurons with widely varying preferred stimulus orientations (). / Therefore, the preferential connectivity (, red versus blue line,< 0.05, red versus black line,< 0.05, Permutation tests; and 2f,< 0.05, Cochran–Armitage test) between neurons with si", "source_refs": [ "paper:paper-a80aa5d68f45", "paper:paper-d2a8c6775359", "wiki_page:computationalreviewrecurrence-06-connectomic-micons", "paper:paper-a80aa5d68f45", "paper:paper-d2a8c6775359", "wiki_page:computationalreviewrecurrence-06-connectomic-micons", "paper:paper-a80aa5d68f45", "paper:paper-d2a8c6775359", "wiki_page:computationalreviewrecurrence-06-connectomic-micons" ], "importance": "0.7200", "tractability": "0.5500", "potential_impact": "0.7000", "composite_score": "0.2772", "elo_rating": "1500.00", "state": "open", "decay_rate": "0.01000", "resolution_evidence_refs": [] }