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Multiscale fingerprinting of neuronal functional connectivity.

Brain structure & function (2014-07-25)
Gang Song, Chung Tin, Chi-Sang Poon
RÉSUMÉ

Current cellular-based connectomics approaches aim to delineate the functional or structural organizations of mammalian brain circuits through neuronal activity mapping and/or axonal tracing. To discern possible connectivity between functionally identified neurons in widely distributed brain circuits, reliable and efficient network-based approaches of cross-registering or cross-correlating such functional-structural data are essential. Here, a novel cross-correlation approach that exploits multiple timing-specific, response-specific, and cell-specific neuronal characteristics as coincident fingerprint markers at the systems, network, and cellular levels is proposed. Application of this multiscale temporal-cellular coincident fingerprinting assay to the respiratory central pattern generator network in rats revealed a descending excitatory pathway with characteristic activity pattern and projecting from a distinct neuronal population in pons to its counterparts in medulla that control the post-inspiratory phase of the respiratory rhythm important for normal breathing, airway protection, and respiratory-vocalization coordination. This enabling neurotracing approach may prove valuable for functional connectivity mapping of other brain circuits.

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Sigma-Aldrich
(+)-Bicuculline, ≥97.0% (TLC)
Sigma-Aldrich
Anticorps monoclonal de lapin anti-NMDAR1, culture supernatant, clone 1.17.2.6, Chemicon®