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plasticity spike purkinje cerebellar interneuron synaptic neuron recording neurosci input purkinje cells excitability control channel stimulation calcium application increase synapses protocol activity figure cerebellar purkinje cells spike count change frequency purkinje cell response tetanization inhibition injection activation calcium transients layer amplitude background spike rate induction dcn neurons count ltp induction experiment spike rate sk 2 channels number effect bath application condition cerebellum jorntell current layer interneurons receptor control conditions neurosciences vol .33 synaptic inputs background microzone potentiation cortex transient output probability study injection protocol pf synapses neuroscience stimulus material pf stimulation stellate pattern cerebellar cortex hansel belmeguenai 30 hz 5 min period granule spine calcium circle
3 Most Recent Publications
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Corrigendum to " Cerebellar molecular layer interneurons - computational properties and roles in learning" [Trends in Neurosciences 33(11), 2010, 524-532]
(Article)
Jörntell, H. Bengtsson, F. Schonewille, M. Zeeuw, C.I. de |
2011-03-01
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Cerebellar molecular layer interneurons - computational properties and roles in learning
(Article)
Jörntell, H. Bengtsson, F. Schonewille, M. Zeeuw, C.I. de |
2010-11-01
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Intrinsic plasticity complements long-term potentiation in parallel fiber input gain control in cerebellar Purkinje cells
(Article)
Belmeguenai, A. Hosy, E. Zeeuw, C.I. de Jörntell, H. Hansel, C.R.W. Bengtsson, F. Pedroarena, C.M. Piochon, C. Teuling, E. He, Q. Ohtsuki, G. Jeu, M.T.G. de Elgersma, Y. |
2010-10-13
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