Aizenman CD, Linden DJ. (1999). Regulation of the rebound depolarization and spontaneous firing patterns of deep nuclear neurons in slices of rat cerebellum. Journal of neurophysiology. 82 [PubMed]

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References and models cited by this paper
References and models that cite this paper

Chacron MJ, Lindner B, Longtin A. (2007). Threshold fatigue and information transfer. Journal of computational neuroscience. 23 [PubMed]

Chemin J, Monteil A, Bourinet E, Nargeot J, Lory P. (2001). Alternatively spliced alpha(1G) (Ca(V)3.1) intracellular loops promote specific T-type Ca(2+) channel gating properties. Biophysical journal. 80 [PubMed]

Geminiani A, Casellato C, D'Angelo E, Pedrocchi A. (2019). Complex Electroresponsive Dynamics in Olivocerebellar Neurons Represented With Extended-Generalized Leaky Integrate and Fire Models. Frontiers in computational neuroscience. 13 [PubMed]

Jaeger D et al. (2017). Robust Transmission of Rate Coding in the Inhibitory Purkinje Cell to Cerebellar Nuclei Pathway in Awake Mice PLOS Computational Biology.

Jaffe DB, Brenner R. (2018). A computational model for how the fast afterhyperpolarization paradoxically increases gain in regularly firing neurons. Journal of neurophysiology. 119 [PubMed]

Kistler WM, De Zeeuw CI. (2003). Time windows and reverberating loops: a reverse-engineering approach to cerebellar function. Cerebellum (London, England). 2 [PubMed]

Kopp-Scheinpflug C et al. (2011). The sound of silence: ionic mechanisms encoding sound termination. Neuron. 71 [PubMed]

Lin RJ, Jaeger D. (2011). Using computer simulations to determine the limitations of dynamic clamp stimuli applied at the soma in mimicking distributed conductance sources. Journal of neurophysiology. 105 [PubMed]

Luthman J et al. (2011). STD-dependent and independent encoding of input irregularity as spike rate in a computational model of a cerebellar nucleus neuron. Cerebellum (London, England). 10 [PubMed]

Ovsepian SV et al. (2013). A defined heteromeric KV1 channel stabilizes the intrinsic pacemaking and regulates the output of deep cerebellar nuclear neurons to thalamic targets. The Journal of physiology. 591 [PubMed]

Sekirnjak C, du Lac S. (2002). Intrinsic firing dynamics of vestibular nucleus neurons. The Journal of neuroscience : the official journal of the Society for Neuroscience. 22 [PubMed]

Steuber V, Jaeger D. (2013). Modeling the generation of output by the cerebellar nuclei. Neural networks : the official journal of the International Neural Network Society. 47 [PubMed]

Steuber V et al. (2007). Cerebellar LTD and pattern recognition by Purkinje cells. Neuron. 54 [PubMed]

Steuber V, Schultheiss NW, Silver RA, De Schutter E, Jaeger D. (2011). Determinants of synaptic integration and heterogeneity in rebound firing explored with data-driven models of deep cerebellar nucleus cells. Journal of computational neuroscience. 30 [PubMed]

Wetmore DZ, Mukamel EA, Schnitzer MJ. (2008). Lock-and-key mechanisms of cerebellar memory recall based on rebound currents. Journal of neurophysiology. 100 [PubMed]

Yamazaki T, Nagao S. (2012). A computational mechanism for unified gain and timing control in the cerebellum. PloS one. 7 [PubMed]

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