Version history

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  1. Live 212c478a7e36
    5/17/2026, 4:35:28 PM
    Content snapshot
    {
      "scope": "mouse; motor cortex, ALM; two-photon imaging; Nature communications",
      "claim_text": "[mouse] Recurrent neural networks reconstructed from ALM activity revealed that PPC-ALM interactions rendered choice-related attractor dynamics more stable.",
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        "n": null,
        "doi": "10.1038/s41467-023-42609-4",
        "claim": "[mouse] Recurrent neural networks reconstructed from ALM activity revealed that PPC-ALM interactions rendered choice-related attractor dynamics more stable.",
        "cite_key": "Chia2023",
        "evidence": "Learning of adaptive behaviors requires the refinement of coordinated activity across multiple brain regions. However, how neural communications develop during learning remains poorly understood. Here, using two-photon calcium imaging, we simultaneously recorded the activity of layer 2/3 excitatory neurons in eight regions of the mouse dorsal cortex during learning of a delayed-response task. Across learning, while global functional connectivity became sparser, there emerged a subnetwork compris...",
        "effect_size": "By projecting the population activity of ALM units onto the choice axis, we determined the frequency of decision switching in response to perturbation, presented for 500 ms after the offset of the stimulus (Fig.).",
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        "effect_size_source_sentence": "By projecting the population activity of ALM units onto the choice axis, we determined the frequency of decision switching in response to perturbation, presented for 500 ms after the offset of the stimulus (Fig.)."
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      "effect_size": "By projecting the population activity of ALM units onto the choice axis, we determined the frequency of decision switching in response to perturbation, presented for 500 ms after the offset of the stimulus (Fig.).",
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      "section_title": "9. Physiological signature I — recurrent amplification of weak inputs in mouse cortex; balanced-amplification regimes; ISN operation",
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          "Local review repositories are read-only inputs.",
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      "evidence_summary": "Learning of adaptive behaviors requires the refinement of coordinated activity across multiple brain regions. However, how neural communications develop during learning remains poorly understood. Here, using two-photon calcium imaging, we simultaneously recorded the activity of layer 2/3 excitatory neurons in eight regions of the mouse dorsal cortex during learning of a delayed-response task. Across learning, while global functional connectivity became sparser, there emerged a subnetwork compris...",
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