De Schutter E, Bower JM. (1994). Simulated responses of cerebellar Purkinje cells are independent of the dendritic location of granule cell synaptic inputs. Proceedings of the National Academy of Sciences of the United States of America. 91 [PubMed]

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References and models cited by this paper

Amitai Y, Friedman A, Connors BW, Gutnick MJ. (1993). Regenerative activity in apical dendrites of pyramidal cells in neocortex. Cerebral cortex (New York, N.Y. : 1991). 3 [PubMed]

Armstrong DM, Rawson JA. (1979). Activity patterns of cerebellar cortical neurones and climbing fibre afferents in the awake cat. The Journal of physiology. 289 [PubMed]

Benardo LS, Masukawa LM, Prince DA. (1982). Electrophysiology of isolated hippocampal pyramidal dendrites. The Journal of neuroscience : the official journal of the Society for Neuroscience. 2 [PubMed]

Bernander O, Douglas RJ, Martin KA, Koch C. (1991). Synaptic background activity influences spatiotemporal integration in single pyramidal cells. Proceedings of the National Academy of Sciences of the United States of America. 88 [PubMed]

Bower JM, Woolston DC. (1983). Congruence of spatial organization of tactile projections to granule cell and Purkinje cell layers of cerebellar hemispheres of the albino rat: vertical organization of cerebellar cortex. Journal of neurophysiology. 49 [PubMed]

De Schutter E, Bower JM. (1994). An active membrane model of the cerebellar Purkinje cell. I. Simulation of current clamps in slice. Journal of neurophysiology. 71 [PubMed]

De Schutter E, Bower JM. (1994). An active membrane model of the cerebellar Purkinje cell II. Simulation of synaptic responses. Journal of neurophysiology. 71 [PubMed]

Farrant M, Cull-Candy SG. (1991). Excitatory amino acid receptor-channels in Purkinje cells in thin cerebellar slices. Proceedings. Biological sciences. 244 [PubMed]

Gruol DL, Jacquin T, Yool AJ. (1991). Single-channel K+ currents recorded from the somatic and dendritic regions of cerebellar Purkinje neurons in culture. The Journal of neuroscience : the official journal of the Society for Neuroscience. 11 [PubMed]

Harvey RJ, Napper RM. (1991). Quantitative studies on the mammalian cerebellum. Progress in neurobiology. 36 [PubMed]

Kaneda M, Wakamori M, Ito C, Akaike N. (1990). Low-threshold calcium current in isolated Purkinje cell bodies of rat cerebellum. Journal of neurophysiology. 63 [PubMed]

Llinás R, Sugimori M. (1979). Calcium conductances in Purkinje cell dendrites: their role in development and integration. Progress in brain research. 51 [PubMed]

Llinás R, Sugimori M, Lin JW, Cherksey B. (1989). Blocking and isolation of a calcium channel from neurons in mammals and cephalopods utilizing a toxin fraction (FTX) from funnel-web spider poison. Proceedings of the National Academy of Sciences of the United States of America. 86 [PubMed]

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

Midtgaard J, Lasser-Ross N, Ross WN. (1993). Spatial distribution of Ca2+ influx in turtle Purkinje cell dendrites in vitro: role of a transient outward current. Journal of neurophysiology. 70 [PubMed]

Miyakawa H, Lev-Ram V, Lasser-Ross N, Ross WN. (1992). Calcium transients evoked by climbing fiber and parallel fiber synaptic inputs in guinea pig cerebellar Purkinje neurons. Journal of neurophysiology. 68 [PubMed]

Rall W, Burke RE, Smith TG, Nelson PG, Frank K. (1967). Dendritic location of synapses and possible mechanisms for the monosynaptic EPSP in motoneurons. Journal of neurophysiology. 30 [PubMed]

Regan LJ. (1991). Voltage-dependent calcium currents in Purkinje cells from rat cerebellar vermis. The Journal of neuroscience : the official journal of the Society for Neuroscience. 11 [PubMed]

Rittenhouse AR, Hess P. (1994). Microscopic heterogeneity in unitary N-type calcium currents in rat sympathetic neurons. The Journal of physiology. 474 [PubMed]

Shambes GM, Gibson JM, Welker W. (1978). Fractured somatotopy in granule cell tactile areas of rat cerebellar hemispheres revealed by micromapping. Brain, behavior and evolution. 15 [PubMed]

References and models that cite this paper

Cook EP, Johnston D. (1997). Active dendrites reduce location-dependent variability of synaptic input trains. Journal of neurophysiology. 78 [PubMed]

Cook EP, Johnston D. (1999). Voltage-dependent properties of dendrites that eliminate location-dependent variability of synaptic input. Journal of neurophysiology. 81 [PubMed]

De Schutter E. (1997). A new functional role for cerebellar long-term depression. Progress in brain research. 114 [PubMed]

De Schutter E. (1998). Dendritic voltage and calcium-gated channels amplify the variability of postsynaptic responses in a Purkinje cell model. Journal of neurophysiology. 80 [PubMed]

De Schutter E. (1999). Using realistic models to study synaptic integration in cerebellar Purkinje cells. Reviews in the neurosciences. 10 [PubMed]

De Schutter E, Smolen P. (1998). Calcium dynamics in large neuronal models Methods In Neuronal Modeling: From Ions To Networks.

Fernandez FR, Engbers JD, Turner RW. (2007). Firing dynamics of cerebellar purkinje cells. Journal of neurophysiology. 98 [PubMed]

Graham BP. (2001). Pattern recognition in a compartmental model of a CA1 pyramidal neuron. Network (Bristol, England). 12 [PubMed]

Haag J, Theunissen F, Borst A. (1997). The intrinsic electrophysiological characteristics of fly lobula plate tangential cells: II. Active membrane properties. Journal of computational neuroscience. 4 [PubMed]

Häusser M, Mel B. (2003). Dendrites: bug or feature? Current opinion in neurobiology. 13 [PubMed]

Jaeger D. (2003). No Parallel Fiber Volleys in the Cerebellar Cortex: Evidence from Cross-Correlation Analysis between Purkinje Cells in a Computer Model and in Recordings from Anesthetized Rats Journal of computational neuroscience. 14 [PubMed]

Jaeger D, De Schutter E, Bower JM. (1997). The role of synaptic and voltage-gated currents in the control of Purkinje cell spiking: a modeling study. The Journal of neuroscience : the official journal of the Society for Neuroscience. 17 [PubMed]

Kozloski J, Wagner J. (2011). An Ultrascalable Solution to Large-scale Neural Tissue Simulation. Frontiers in neuroinformatics. 5 [PubMed]

London M, Meunier C, Segev I. (1999). Signal transfer in passive dendrites with nonuniform membrane conductance. The Journal of neuroscience : the official journal of the Society for Neuroscience. 19 [PubMed]

Maex R, De Schutter E. (1998). Synchronization of golgi and granule cell firing in a detailed network model of the cerebellar granule cell layer. Journal of neurophysiology. 80 [PubMed]

Marasco A, Limongiello A, Migliore M. (2013). Using Strahler's analysis to reduce up to 200-fold the run time of realistic neuron models. Scientific reports. 3 [PubMed]

Masoli S et al. (2024). Human Purkinje cells outperform mouse Purkinje cells in dendritic complexity and computational capacity. Communications biology. 7 [PubMed]

Masoli S, Solinas S, D'Angelo E. (2015). Action potential processing in a detailed Purkinje cell model reveals a critical role for axonal compartmentalization. Frontiers in cellular neuroscience. 9 [PubMed]

Poirazi P, Brannon T, Mel BW. (2003). Arithmetic of subthreshold synaptic summation in a model CA1 pyramidal cell. Neuron. 37 [PubMed]

Roth A, Häusser M. (2001). Compartmental models of rat cerebellar Purkinje cells based on simultaneous somatic and dendritic patch-clamp recordings. The Journal of physiology. 535 [PubMed]

Rudolph M, Destexhe A. (2003). A fast-conducting, stochastic integrative mode for neocortical neurons in vivo. The Journal of neuroscience : the official journal of the Society for Neuroscience. 23 [PubMed]

Santamaria F, Jaeger D, De Schutter E, Bower JM. (2002). Modulatory effects of parallel fiber and molecular layer interneuron synaptic activity on purkinje cell responses to ascending segment input: a modeling study. Journal of computational neuroscience. 13 [PubMed]

Santamaria F, Tripp PG, Bower JM. (2007). Feedforward inhibition controls the spread of granule cell-induced Purkinje cell activity in the cerebellar cortex. Journal of neurophysiology. 97 [PubMed]

Segev I, London M. (2000). Untangling dendrites with quantitative models. Science (New York, N.Y.). 290 [PubMed]

Segev I, Rall W. (1998). Excitable dendrites and spines: earlier theoretical insights elucidate recent direct observations. Trends in neurosciences. 21 [PubMed]

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

Stuart G, Spruston N, Sakmann B, Häusser M. (1997). Action potential initiation and backpropagation in neurons of the mammalian CNS. Trends in neurosciences. 20 [PubMed]

Williams SR, Stuart GJ. (2003). Role of dendritic synapse location in the control of action potential output. Trends in neurosciences. 26 [PubMed]

Zang Y, De Schutter E. (2021). The Cellular Electrophysiological Properties Underlying Multiplexed Coding in Purkinje Cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 41 [PubMed]

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