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- Live5/17/2026, 4:35:28 PM
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{ "field_tag": "excitatory-recurrence", "text": "What resolves this contention: Kasthuri 2015 concludes that physical proximity is insufficient to predict whether two neurons form synapses, while Ding 2025 finds that axon–dendrite co-travel (a finer-grained proxy for opportunity) is itself a graded function of functional similarity. The two studies disagree on whether the opportunity-controlled signal in Peters' rule contains additional functional information; they use different graining of opportunity (every spine vs. ADP). / For example, by tracing the trajectories of all excitatory axons and noting their juxtapositions, both synaptic and non-synaptic, with every dendritic spine we refute the idea that physical proximity is sufficient to predict synaptic connectivity (the so-called Peters' rule). / Among pairs of neurons with at least one ADP, axon–dendrite co-travelling for longer-than-average distances was associated with higher-than-average feature similarity (", "source_refs": [ "paper:paper-117c0465999e", "paper:paper-7ac22819c082", "wiki_page:computationalreviewrecurrence-06-connectomic-micons", "paper:paper-117c0465999e", "paper:paper-7ac22819c082", "wiki_page:computationalreviewrecurrence-06-connectomic-micons", "paper:paper-117c0465999e", "paper:paper-7ac22819c082", "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": [] }