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GRANIT R, PHILLIPS CG (1956) Excitatory and inhibitory processes acting upon individual Purkinje cells of the cerebellum in cats. J Physiol 133:520-47 [PubMed]

References and models cited by this paper

References and models that cite this paper

Akemann W, Knöpfel T (2006) Interaction of Kv3 potassium channels and resurgent sodium current influences the rate of spontaneous firing of Purkinje neurons. J Neurosci 26:4602-12 [Journal] [PubMed]
   Cerebellar purkinje cell: interacting Kv3 and Na currents influence firing (Akemann, Knopfel 2006) [Model]
Genet S, Sabarly L, Guigon E, Berry H, Delord B (2010) Dendritic signals command firing dynamics in a mathematical model of cerebellar Purkinje cells. Biophys J 99:427-36 [Journal] [PubMed]
   Dendritic signals command firing dynamics in a Cerebellar Purkinje Cell model (Genet et al. 2010) [Model]
Häusser M, Clark BA (1997) Tonic synaptic inhibition modulates neuronal output pattern and spatiotemporal synaptic integration. Neuron 19:665-78 [PubMed]
Khaliq ZM, Gouwens NW, Raman IM (2003) The contribution of resurgent sodium current to high-frequency firing in Purkinje neurons: an experimental and modeling study. J Neurosci 23:4899-912 [PubMed]
   Cerebellar Purkinje Cell: resurgent Na current and high frequency firing (Khaliq et al 2003) [Model]
Loewenstein Y, Mahon S, Chadderton P, Kitamura K, Sompolinsky H, Yarom Y, Häusser M (2005) Bistability of cerebellar Purkinje cells modulated by sensory stimulation. Nat Neurosci 8:202-11 [Journal] [PubMed]
Williams SR, Christensen SR, Stuart GJ, Häusser M (2002) Membrane potential bistability is controlled by the hyperpolarization-activated current I(H) in rat cerebellar Purkinje neurons in vitro. J Physiol 539:469-83 [PubMed]
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