J Comput Neurosci:633–658 DOIs10827z Determinants of synaptic integration and heterogeneity in rebound firing explored with data-driven models of deep cerebellar nucleus cells - Bridge No. - Document - PDFSEARCH.IO - Document Search Engine

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	J Comput Neurosci:633–658 DOIs10827z Determinants of synaptic integration and heterogeneity in rebound firing explored with data-driven models of deep cerebellar nucleus cells Add to Reading List Document Date: 2014-02-10 10:38:35 Open Document File Size: 2,56 MB Share Result on Facebook City Natick / Antwerp / / Company ADP / MathWorks Inc. / Springer Science+Business Media LLC / ICaT / TNC / / Country Japan / / Currency pence / ISK / / / Facility University of Antwerp / Okinawa Institute of Science / Technology Research Institute / University of Hertfordshire / Emory University / / IndustryTerm calcium imaging study / genetic algorithm / online version / cerebellar cortical processing / signal processing / supplemental on-line material / / NaturalFeature Na channel / / OperatingSystem ISIs / / Organization Emory University / National Institute of Health / University of Antwerp / UK V / Schutter Computational Neuroscience Unit / Okinawa Institute of Science and Technology / Department of Biology / Steuber Science and Technology Research Institute / University of Hertfordshire / R. A. Silver Department of Neuroscience / Physiology and Pharmacology / / Person R. Angus Silver / Spike / Volker Steuber / Neuron Neuron / Dieter Jaeger / John Huguenard / Nathan W. Schultheiss / Erik De Schutter / Soma Proximal / / Position model / model of Neuron / model model / Action Editor / / ProgrammingLanguage Occam / / Technology Neuroscience / genetic algorithm / approved Emory IACUC protocol / Simulation / / URL http / SocialTag Neurophysiology Computational neuroscience Neurons Cellular neuroscience Biological neuron model Action potential Dendritic spike Inhibitory postsynaptic potential Dendrite Biology