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

See more from authors: Wetmore DZ · Mukamel EA · Schnitzer MJ

References and models cited by this paper

Abbott LF, Nelson SB. (2000). Synaptic plasticity: taming the beast. Nature neuroscience. 3 Suppl [PubMed]

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]

Aizenman CD, Linden DJ. (2000). Rapid, synaptically driven increases in the intrinsic excitability of cerebellar deep nuclear neurons. Nature neuroscience. 3 [PubMed]

Aizenman CD, Manis PB, Linden DJ. (1998). Polarity of long-term synaptic gain change is related to postsynaptic spike firing at a cerebellar inhibitory synapse. Neuron. 21 [PubMed]

Aksenov DP, Serdyukova NA, Bloedel JR, Bracha V. (2005). Glutamate neurotransmission in the cerebellar interposed nuclei: involvement in classically conditioned eyeblinks and neuronal activity. Journal of neurophysiology. 93 [PubMed]

Albus JS. (1971). A theory of cerebellar function Math Biosci. 10

Anchisi D, Scelfo B, Tempia F. (2001). Postsynaptic currents in deep cerebellar nuclei. Journal of neurophysiology. 85 [PubMed]

Baccus SA, Meister M. (2002). Fast and slow contrast adaptation in retinal circuitry. Neuron. 36 [PubMed]

Bengtsson F, Svensson P, Hesslow G. (2004). Feedback control of Purkinje cell activity by the cerebello-olivary pathway. The European journal of neuroscience. 20 [PubMed]

Berthier NE, Moore JW. (1986). Cerebellar Purkinje cell activity related to the classically conditioned nictitating membrane response. Experimental brain research. 63 [PubMed]

Berthier NE, Moore JW. (1990). Activity of deep cerebellar nuclear cells during classical conditioning of nictitating membrane extension in rabbits. Experimental brain research. 83 [PubMed]

Bliss TV, Lomo T. (1973). Long-lasting potentiation of synaptic transmission in the dentate area of the anaesthetized rabbit following stimulation of the perforant path. The Journal of physiology. 232 [PubMed]

Boyden ES et al. (2006). Selective engagement of plasticity mechanisms for motor memory storage. Neuron. 51 [PubMed]

Boyden ES, Katoh A, Raymond JL. (2004). Cerebellum-dependent learning: the role of multiple plasticity mechanisms. Annual review of neuroscience. 27 [PubMed]

Boyden ES, Raymond JL. (2003). Active reversal of motor memories reveals rules governing memory encoding. Neuron. 39 [PubMed]

Buonomano DV, Mauk MD. (1994). Neural network model of the cerebellum: temporal discrimination and the timing of motor responses Neural Comput. 6

Chadderton P, Margrie TW, Häusser M. (2004). Integration of quanta in cerebellar granule cells during sensory processing. Nature. 428 [PubMed]

Chan-Palay V. (1973). Axon terminals of the intrinsic neurons in the nucleus lateralis of the cerebellum. An electron microscope study. Zeitschrift fur Anatomie und Entwicklungsgeschichte. 142 [PubMed]

Chen C, Thompson RF. (1995). Temporal specificity of long-term depression in parallel fiber--Purkinje synapses in rat cerebellar slice. Learning & memory (Cold Spring Harbor, N.Y.). 2 [PubMed]

Chen FP, Evinger C. (2006). Cerebellar modulation of trigeminal reflex blinks: interpositus neurons. The Journal of neuroscience : the official journal of the Society for Neuroscience. 26 [PubMed]

Choi JS, Moore JW. (2003). Cerebellar neuronal activity expresses the complex topography of conditioned eyeblink responses. Behavioral neuroscience. 117 [PubMed]

Christian KM, Poulos AM, Lavond DG, Thompson RF. (2004). Comment on "Cerebellar LTD and learning-dependent timing of conditioned eyelid responses". Science (New York, N.Y.). 304 [PubMed]

Christian KM, Thompson RF. (2003). Neural substrates of eyeblink conditioning: acquisition and retention. Learning & memory (Cold Spring Harbor, N.Y.). 10 [PubMed]

Chun SW, Choi JH, Kim MS, Park BR. (2003). Characterization of spontaneous synaptic transmission in rat medial vestibular nucleus. Neuroreport. 14 [PubMed]

Coesmans M, Weber JT, De Zeeuw CI, Hansel C. (2004). Bidirectional parallel fiber plasticity in the cerebellum under climbing fiber control. Neuron. 44 [PubMed]

D'Angelo E, Rossi P, Armano S, Taglietti V. (1999). Evidence for NMDA and mGlu receptor-dependent long-term potentiation of mossy fiber-granule cell transmission in rat cerebellum. Journal of neurophysiology. 81 [PubMed]

De Zeeuw CI, Berrebi AS. (1995). Postsynaptic targets of Purkinje cell terminals in the cerebellar and vestibular nuclei of the rat. The European journal of neuroscience. 7 [PubMed]

De Zeeuw CI, Yeo CH. (2005). Time and tide in cerebellar memory formation. Current opinion in neurobiology. 15 [PubMed]

Debiec J, Doyère V, Nader K, Ledoux JE. (2006). Directly reactivated, but not indirectly reactivated, memories undergo reconsolidation in the amygdala. Proceedings of the National Academy of Sciences of the United States of America. 103 [PubMed]

Dickson CT et al. (2000). Properties and role of I(h) in the pacing of subthreshold oscillations in entorhinal cortex layer II neurons. Journal of neurophysiology. 83 [PubMed]

Doi T, Kuroda S, Michikawa T, Kawato M. (2005). Inositol 1,4,5-trisphosphate-dependent Ca2+ threshold dynamics detect spike timing in cerebellar Purkinje cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 25 [PubMed]

Doyère V, Debiec J, Monfils MH, Schafe GE, LeDoux JE. (2007). Synapse-specific reconsolidation of distinct fear memories in the lateral amygdala. Nature neuroscience. 10 [PubMed]

FITZHUGH R. (1960). Thresholds and plateaus in the Hodgkin-Huxley nerve equations. The Journal of general physiology. 43 [PubMed]

Feil R et al. (2003). Impairment of LTD and cerebellar learning by Purkinje cell-specific ablation of cGMP-dependent protein kinase I. The Journal of cell biology. 163 [PubMed]

Fino E, Glowinski J, Venance L. (2005). Bidirectional activity-dependent plasticity at corticostriatal synapses. The Journal of neuroscience : the official journal of the Society for Neuroscience. 25 [PubMed]

Freeman JH, Nicholson DA. (1999). Neuronal activity in the cerebellar interpositus and lateral pontine nuclei during inhibitory classical conditioning of the eyeblink response. Brain research. 833 [PubMed]

GORMEZANO I, SCHNEIDERMAN N, DEAUX E, FUENTES I. (1962). Nictitating membrane: classical conditioning and extinction in the albino rabbit. Science (New York, N.Y.). 138 [PubMed]

Gallistel CR. (1990). The Organization of Learning.

Gallistel CR, Gibbon J. (2000). Time, rate, and conditioning. Psychological review. 107 [PubMed]

Gauck V, Thomann M, Jaeger D, Borst A. (2001). Spatial distribution of low- and high-voltage-activated calcium currents in neurons of the deep cerebellar nuclei. The Journal of neuroscience : the official journal of the Society for Neuroscience. 21 [PubMed]

Gould TJ, Steinmetz JE. (1996). Changes in rabbit cerebellar cortical and interpositus nucleus activity during acquisition, extinction, and backward classical eyelid conditioning. Neurobiology of learning and memory. 65 [PubMed]

Green JT, Steinmetz JE. (2005). Purkinje cell activity in the cerebellar anterior lobe after rabbit eyeblink conditioning. Learning & memory (Cold Spring Harbor, N.Y.). 12 [PubMed]

HODGKIN AL, HUXLEY AF. (1952). A quantitative description of membrane current and its application to conduction and excitation in nerve. The Journal of physiology. 117 [PubMed]

Hansel C, Linden DJ, D'Angelo E. (2001). Beyond parallel fiber LTD: the diversity of synaptic and non-synaptic plasticity in the cerebellum. Nature neuroscience. 4 [PubMed]

Heck D, Kümmell F, Thach WT, Aertsena A. (2002). Dynamic correlation of neuronal activity in rat cerebellar cortex modulated by behavior. Annals of the New York Academy of Sciences. 978 [PubMed]

Hesslow G. (1994). Correspondence between climbing fibre input and motor output in eyeblink-related areas in cat cerebellar cortex. The Journal of physiology. 476 [PubMed]

Hesslow G. (1994). Inhibition of classically conditioned eyeblink responses by stimulation of the cerebellar cortex in the decerebrate cat. The Journal of physiology. 476 [PubMed]

Hesslow G, Ivarsson M. (1996). Inhibition of the inferior olive during conditioned responses in the decerebrate ferret. Experimental brain research. 110 [PubMed]

Hesslow G, Svensson P, Ivarsson M. (1999). Learned movements elicited by direct stimulation of cerebellar mossy fiber afferents. Neuron. 24 [PubMed]

Hille B. (2001). Ion channels of excitable membranes (3rd Ed).

Hines ML, Carnevale NT. (1997). The NEURON simulation environment. Neural computation. 9 [PubMed]

Hopfield JJ. (1982). Neural networks and physical systems with emergent collective computational abilities. Proceedings of the National Academy of Sciences of the United States of America. 79 [PubMed]

Ito M. (1982). Cerebellar control of the vestibulo-ocular reflex--around the flocculus hypothesis. Annual review of neuroscience. 5 [PubMed]

Ito M. (1989). Long-term depression. Annual review of neuroscience. 12 [PubMed]

Ito M, Kano M. (1982). Long-lasting depression of parallel fiber-Purkinje cell transmission induced by conjunctive stimulation of parallel fibers and climbing fibers in the cerebellar cortex. Neuroscience letters. 33 [PubMed]

Jahnsen H. (1986). Electrophysiological characteristics of neurones in the guinea-pig deep cerebellar nuclei in vitro. The Journal of physiology. 372 [PubMed]

Jahnsen H. (1986). Extracellular activation and membrane conductances of neurones in the guinea-pig deep cerebellar nuclei in vitro. The Journal of physiology. 372 [PubMed]

Jirenhed DA, Bengtsson F, Hesslow G. (2007). Acquisition, extinction, and reacquisition of a cerebellar cortical memory trace. The Journal of neuroscience : the official journal of the Society for Neuroscience. 27 [PubMed]

Kassardjian CD et al. (2005). The site of a motor memory shifts with consolidation. The Journal of neuroscience : the official journal of the Society for Neuroscience. 25 [PubMed]

Kimpo RR, Boyden ES, Katoh A, Ke MC, Raymond JL. (2005). Distinct patterns of stimulus generalization of increases and decreases in VOR gain. Journal of neurophysiology. 94 [PubMed]

King DA, Krupa DJ, Foy MR, Thompson RF. (2001). Mechanisms of neuronal conditioning. International review of neurobiology. 45 [PubMed]

Kishimoto Y et al. (2001). Classical eyeblink conditioning in glutamate receptor subunit delta 2 mutant mice is impaired in the delay paradigm but not in the trace paradigm. The European journal of neuroscience. 13 [PubMed]

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

Koekkoek SK et al. (2003). Cerebellar LTD and learning-dependent timing of conditioned eyelid responses. Science (New York, N.Y.). 301 [PubMed]

Koekkoek SK et al. (2005). Deletion of FMR1 in Purkinje cells enhances parallel fiber LTD, enlarges spines, and attenuates cerebellar eyelid conditioning in Fragile X syndrome. Neuron. 47 [PubMed]

Korenberg MJ, Hunter IW. (1986). The identification of nonlinear biological systems: LNL cascade models. Biological cybernetics. 55 [PubMed]

Kotani S, Kawahara S, Kirino Y. (2003). Purkinje cell activity during learning a new timing in classical eyeblink conditioning. Brain research. 994 [PubMed]

Kotani S, Kawahara S, Kirino Y. (2006). Purkinje cell activity during classical eyeblink conditioning in decerebrate guinea pigs. Brain research. 1068 [PubMed]

Lang EJ, Sugihara I, Welsh JP, Llinás R. (1999). Patterns of spontaneous purkinje cell complex spike activity in the awake rat. The Journal of neuroscience : the official journal of the Society for Neuroscience. 19 [PubMed]

Lashley KS. (1950). In search of the engram Symp Soc Exp Biol. 4

Lev-Ram V, Mehta SB, Kleinfeld D, Tsien RY. (2003). Reversing cerebellar long-term depression. Proceedings of the National Academy of Sciences of the United States of America. 100 [PubMed]

Llinás R, Mühlethaler M. (1988). Electrophysiology of guinea-pig cerebellar nuclear cells in the in vitro brain stem-cerebellar preparation. The Journal of physiology. 404 [PubMed]

Loewenstein Y et al. (2005). Bistability of cerebellar Purkinje cells modulated by sensory stimulation. Nature neuroscience. 8 [PubMed]

Mainen ZF, Sejnowski TJ. (1996). Influence of dendritic structure on firing pattern in model neocortical neurons. Nature. 382 [PubMed]

Marr D. (1969). A theory of cerebellar cortex. The Journal of physiology. 202 [PubMed]

Martin SJ, Grimwood PD, Morris RG. (2000). Synaptic plasticity and memory: an evaluation of the hypothesis. Annual review of neuroscience. 23 [PubMed]

Mauk MD. (1997). Roles of cerebellar cortex and nuclei in motor learning: contradictions or clues? Neuron. 18 [PubMed]

Mauk MD, Donegan NH. (1997). A model of Pavlovian eyelid conditioning based on the synaptic organization of the cerebellum. Learning & memory (Cold Spring Harbor, N.Y.). 4 [PubMed]

Mauk MD, Nores WL, Ohyama T. (2007). Stimulus generalization of conditioned eyelid responses produced without cerebellar cortex: implications for plasticity in the cerebellar nuclei. Learn Mem. 10

Mauk MD, Ohyama T. (2004). Extinction as new learning versus unlearning: considerations from a computer simulation of the cerebellum. Learning & memory (Cold Spring Harbor, N.Y.). 11 [PubMed]

Mauk MD, Steinmetz JE, Thompson RF. (1986). Classical conditioning using stimulation of the inferior olive as the unconditioned stimulus. Proceedings of the National Academy of Sciences of the United States of America. 83 [PubMed]

McCormick DA, Clark GA, Lavond DG, Thompson RF. (1982). Initial localization of the memory trace for a basic form of learning. Proceedings of the National Academy of Sciences of the United States of America. 79 [PubMed]

McCormick DA, Steinmetz JE, Thompson RF. (1985). Lesions of the inferior olivary complex cause extinction of the classically conditioned eyeblink response. Brain research. 359 [PubMed]

McCormick DA, Thompson RF. (1984). Cerebellum: essential involvement in the classically conditioned eyelid response. Science (New York, N.Y.). 223 [PubMed]

McCormick DA, Thompson RF. (1984). Neuronal responses of the rabbit cerebellum during acquisition and performance of a classically conditioned nictitating membrane-eyelid response. The Journal of neuroscience : the official journal of the Society for Neuroscience. 4 [PubMed]

McDonough SI, Bean BP. (1998). Mibefradil inhibition of T-type calcium channels in cerebellar purkinje neurons. Molecular pharmacology. 54 [PubMed]

McRory JE et al. (2001). Molecular and functional characterization of a family of rat brain T-type calcium channels. The Journal of biological chemistry. 276 [PubMed]

Medina JF, Carey MR, Lisberger SG. (2005). The representation of time for motor learning. Neuron. 45 [PubMed]

Medina JF, Garcia KS, Nores WL, Taylor NM, Mauk MD. (2000). Timing mechanisms in the cerebellum: testing predictions of a large-scale computer simulation. The Journal of neuroscience : the official journal of the Society for Neuroscience. 20 [PubMed]

Medina JF, Mauk MD. (1999). Simulations of cerebellar motor learning: computational analysis of plasticity at the mossy fiber to deep nucleus synapse. The Journal of neuroscience : the official journal of the Society for Neuroscience. 19 [PubMed]

Medina JF, Mauk MD. (2000). Computer simulation of cerebellar information processing. Nature neuroscience. 3 Suppl [PubMed]

Medina JF, Nores WL, Mauk MD. (2002). Inhibition of climbing fibres is a signal for the extinction of conditioned eyelid responses. Nature. 416 [PubMed]

Miles FA, Lisberger SG. (1981). Plasticity in the vestibulo-ocular reflex: a new hypothesis. Annual review of neuroscience. 4 [PubMed]

Miller RR, Barnet RC, Cole RP. (1997). Temporal integration in second-order conditioning and sensory preconditioning Animal Learning And Behavior. 25

Miyata M et al. (2001). Deficient long-term synaptic depression in the rostral cerebellum correlated with impaired motor learning in phospholipase C beta4 mutant mice. The European journal of neuroscience. 13 [PubMed]

Molineux ML et al. (2006). Specific T-type calcium channel isoforms are associated with distinct burst phenotypes in deep cerebellar nuclear neurons. Proceedings of the National Academy of Sciences of the United States of America. 103 [PubMed]

Nakazawa K et al. (2002). Requirement for hippocampal CA3 NMDA receptors in associative memory recall. Science (New York, N.Y.). 297 [PubMed]

Nambu A, Llinaś R. (1994). Electrophysiology of globus pallidus neurons in vitro. Journal of neurophysiology. 72 [PubMed]

Napper RM, Harvey RJ. (1988). Number of parallel fiber synapses on an individual Purkinje cell in the cerebellum of the rat. The Journal of comparative neurology. 274 [PubMed]

Nicholson DA, Freeman JH. (2002). Neuronal correlates of conditioned inhibition of the eyeblink response in the anterior interpositus nucleus. Behavioral neuroscience. 116 [PubMed]

Ohyama T, Mauk M. (2001). Latent acquisition of timed responses in cerebellar cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 21 [PubMed]

Ohyama T, Nores WL, Murphy M, Mauk MD. (2003). What the cerebellum computes. Trends in neurosciences. 26 [PubMed]

Pape HC. (1996). Queer current and pacemaker: the hyperpolarization-activated cation current in neurons. Annual review of physiology. 58 [PubMed]

Pedroarena CM, Schwarz C. (2003). Efficacy and short-term plasticity at GABAergic synapses between Purkinje and cerebellar nuclei neurons. Journal of neurophysiology. 89 [PubMed]

Perrett SP, Ruiz BP, Mauk MD. (1993). Cerebellar cortex lesions disrupt learning-dependent timing of conditioned eyelid responses. The Journal of neuroscience : the official journal of the Society for Neuroscience. 13 [PubMed]

Pinsky PF, Rinzel J. (1994). Intrinsic and network rhythmogenesis in a reduced Traub model for CA3 neurons. Journal of computational neuroscience. 1 [PubMed]

Porcello DM, Smith SD, Huguenard JR. (2003). Actions of U-92032, a T-type Ca2+ channel antagonist, support a functional linkage between I(T) and slow intrathalamic rhythms. Journal of neurophysiology. 89 [PubMed]

Pugh JR, Raman IM. (2006). Potentiation of mossy fiber EPSCs in the cerebellar nuclei by NMDA receptor activation followed by postinhibitory rebound current. Neuron. 51 [PubMed]

Raman IM, Gustafson AE, Padgett D. (2000). Ionic currents and spontaneous firing in neurons isolated from the cerebellar nuclei. The Journal of neuroscience : the official journal of the Society for Neuroscience. 20 [PubMed]

Ramirez JJ, Salafia WR, Lambert RW, Host KC, Chiala NL. (1980). Rabbit nictitating membraneconditioning: lower limit of the effective interstimulus interval Animal Learning Behavior. 8

Raymond JL, Lisberger SG. (1996). Behavioral analysis of signals that guide learned changes in the amplitude and dynamics of the vestibulo-ocular reflex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 16 [PubMed]

Rinzel J, Ermentrout B. (2001). Analysis of neural excitability and oscillations Methods in Neuronal Modeling.

Rush ME, Rinzel J. (1994). Analysis of bursting in a thalamic neuron model. Biological cybernetics. 71 [PubMed]

SCHNEIDERMAN N, GORMEZANO I. (1964). CONDITIONING OF THE NICTITATING MEMBRANE OF THE RABBIT AS A FUNCTION OF CS-US INTERVAL. Journal of comparative and physiological psychology. 57 [PubMed]

Santoro B et al. (2000). Molecular and functional heterogeneity of hyperpolarization-activated pacemaker channels in the mouse CNS. The Journal of neuroscience : the official journal of the Society for Neuroscience. 20 [PubMed]

Sekirnjak C, Vissel B, Bollinger J, Faulstich M, du Lac S. (2003). Purkinje cell synapses target physiologically unique brainstem neurons. The Journal of neuroscience : the official journal of the Society for Neuroscience. 23 [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]

Sekirnjak C, du Lac S. (2006). Physiological and anatomical properties of mouse medial vestibular nucleus neurons projecting to the oculomotor nucleus. Journal of neurophysiology. 95 [PubMed]

Serafin M, de Waele C, Khateb A, Vidal PP, Mühlethaler M. (1991). Medial vestibular nucleus in the guinea-pig. II. Ionic basis of the intrinsic membrane properties in brainstem slices. Experimental brain research. 84 [PubMed]

Shibuki K et al. (1996). Deficient cerebellar long-term depression, impaired eyeblink conditioning, and normal motor coordination in GFAP mutant mice. Neuron. 16 [PubMed]

Shutoh F, Ohki M, Kitazawa H, Itohara S, Nagao S. (2006). Memory trace of motor learning shifts transsynaptically from cerebellar cortex to nuclei for consolidation. Neuroscience. 139 [PubMed]

Smith MA, Ghazizadeh A, Shadmehr R. (2006). Interacting adaptive processes with different timescales underlie short-term motor learning. PLoS biology. 4 [PubMed]

Smith MC. (1968). CS-US interval and US intensity in classical conditioning of the rabbit's nictitating membrane response. Journal of comparative and physiological psychology. 66 [PubMed]

Smith MC, Coleman SR, Gormezano I. (1969). Classical conditioning of the rabbit's nictitating membrane response at backward, simultaneous, and forward CS-US intervals. Journal of comparative and physiological psychology. 69 [PubMed]

Smith MR, Nelson AB, Du Lac S. (2002). Regulation of firing response gain by calcium-dependent mechanisms in vestibular nucleus neurons. Journal of neurophysiology. 87 [PubMed]

Soler-Llavina GJ, Sabatini BL. (2006). Synapse-specific plasticity and compartmentalized signaling in cerebellar stellate cells. Nature neuroscience. 9 [PubMed]

Spain WJ, Schwindt PC, Crill WE. (1987). Anomalous rectification in neurons from cat sensorimotor cortex in vitro. Journal of neurophysiology. 57 [PubMed]

Steinmetz JE, Lavond DG, Thompson RF. (1989). Classical conditioning in rabbits using pontine nucleus stimulation as a conditioned stimulus and inferior olive stimulation as an unconditioned stimulus. Synapse (New York, N.Y.). 3 [PubMed]

Steinmetz JE, Rosen DJ, Chapman PF, Lavond DG, Thompson RF. (1986). Classical conditioning of the rabbit eyelid response with a mossy-fiber stimulation CS: I. Pontine nuclei and middle cerebellar peduncle stimulation. Behavioral neuroscience. 100 [PubMed]

Straka H, Vibert N, Vidal PP, Moore LE, Dutia MB. (2005). Intrinsic membrane properties of vertebrate vestibular neurons: function, development and plasticity. Progress in neurobiology. 76 [PubMed]

Talley EM et al. (1999). Differential distribution of three members of a gene family encoding low voltage-activated (T-type) calcium channels. The Journal of neuroscience : the official journal of the Society for Neuroscience. 19 [PubMed]

Teune TM, van der Burg J, de Zeeuw CI, Voogd J, Ruigrok TJ. (1998). Single Purkinje cell can innervate multiple classes of projection neurons in the cerebellar nuclei of the rat: a light microscopic and ultrastructural triple-tracer study in the rat. The Journal of comparative neurology. 392 [PubMed]

Thier P, Dicke PW, Haas R, Barash S. (2000). Encoding of movement time by populations of cerebellar Purkinje cells. Nature. 405 [PubMed]

Tracy JA, Steinmetz JE. (1998). Purkinje cell responses to pontine stimulation CS during rabbit eyeblink conditioning. Physiology & behavior. 65 [PubMed]

Wang SS, Denk W, Häusser M. (2000). Coincidence detection in single dendritic spines mediated by calcium release. Nature neuroscience. 3 [PubMed]

Wills TJ, Lever C, Cacucci F, Burgess N, O'Keefe J. (2005). Attractor dynamics in the hippocampal representation of the local environment. Science (New York, N.Y.). 308 [PubMed]

Zhang F et al. (2007). Multimodal fast optical interrogation of neural circuitry. Nature. 446 [PubMed]

Zhang W, Shin JH, Linden DJ. (2004). Persistent changes in the intrinsic excitability of rat deep cerebellar nuclear neurones induced by EPSP or IPSP bursts. The Journal of physiology. 561 [PubMed]

du Lac S, Lisberger SG. (1995). Membrane and firing properties of avian medial vestibular nucleus neurons in vitro. Journal of comparative physiology. A, Sensory, neural, and behavioral physiology. 176 [PubMed]

du Lac S, Lisberger SG. (1995). Cellular processing of temporal information in medial vestibular nucleus neurons. The Journal of neuroscience : the official journal of the Society for Neuroscience. 15 [PubMed]

du Lac S, Raymond JL, Sejnowski TJ, Lisberger SG. (1995). Learning and memory in the vestibulo-ocular reflex. Annual review of neuroscience. 18 [PubMed]

This website requires cookies and limited processing of your personal data in order to function. By continuing to browse or otherwise use this site, you are agreeing to this use. See our Privacy policy and how to cite and terms of use.