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{
"n": 0,
"doi": "10.1038/s41467-025-68059-8",
"claim": "These findings suggest a context-dependent role for cadherins in synaptic specificity and underscore the power of single-cell transcriptomics for decoding the molecular mechanisms of cortical wiring.",
"evidence": "The cerebral cortex comprises diverse excitatory and inhibitory neuron subtypes, each with distinct laminar positions and connectivity patterns. Yet, the molecular logic underlying their precise wiring remains poorly understood. To identify ligand-receptor (LR) interactions involved in cortical circ",
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"text_access": "abstract_only",
"study_system": "mouse cortex",
"replication_status": "replication_unknown",
"claim_source_sentence": "These findings suggest a context-dependent role for cadherins in synaptic specificity and underscore the power of single-cell transcriptomics for decoding the molecular mechanisms of cortical wiring.",
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}- source_refs
[
"paper:paper-110020e8344f"
]
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[
{
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}
]- 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."
],
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The cerebral cortex comprises diverse excitatory and inhibitory neuron subtypes, each with distinct laminar positions and connectivity patterns. Yet, the molecular logic underlying their precise wiring remains poorly understood. To identify ligand-receptor (LR) interactions involved in cortical circ