MicrocircuitDB: Citation Relationship

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Reference cited by multiple papers

D'Angelo E, De Filippi G, Rossi P, Taglietti V (1995) Synaptic excitation of individual rat cerebellar granule cells in situ: evidence for the role of NMDA receptors. J Physiol 484 ( Pt 2):397-413 [PubMed]

References and models cited by this paper

References and models that cite this paper

Berends M, Maex R, De Schutter E (2005) The effect of NMDA receptors on gain modulation. Neural Comput 17:2531-47 [Journal] [PubMed]

Cathala L, Brickley S, Cull-Candy S, Farrant M (2003) Maturation of EPSCs and intrinsic membrane properties enhances precision at a cerebellar synapse. J Neurosci 23:6074-85 [PubMed]

Chadderton P, Margrie TW, Häusser M (2004) Integration of quanta in cerebellar granule cells during sensory processing. Nature 428:856-60 [Journal] [PubMed]

D'Angelo E, Nieus T, Bezzi M, Arleo A, Coenen O (2005) (chapter) Modeling synaptic transmission and quantifying information transfer in the granular layer of the cerebellum Computational Intelligence and Bioinspired Systems, Proceedings 3512:107-114 [Journal]

D'Angelo E, Nieus T, Maffei A, Armano S, Rossi P, Taglietti V, Fontana A, Naldi G (2001) Theta-frequency bursting and resonance in cerebellar granule cells: experimental evidence and modeling of a slow k+-dependent mechanism. J Neurosci 21:759-70 [PubMed]

•	Bursting and resonance in cerebellar granule cells (D'Angelo et al. 2001) [Model]

DiGregorio DA, Nusser Z, Silver RA (2002) Spillover of glutamate onto synaptic AMPA receptors enhances fast transmission at a cerebellar synapse. Neuron 35:521-33 [PubMed]

Diwakar S, Lombardo P, Solinas S, Naldi G, D'Angelo E (2011) Local field potential modeling predicts dense activation in cerebellar granule cells clusters under LTP and LTD control. PLoS One 6:e21928 [Journal] [PubMed]

•	Reconstructing cerebellar granule layer evoked LFP using convolution (ReConv) (Diwakar et al. 2011) [Model]

Diwakar S, Magistretti J, Goldfarb M, Naldi G, D'Angelo E (2009) Axonal Na+ channels ensure fast spike activation and back-propagation in cerebellar granule cells. J Neurophysiol 101:519-32 [Journal] [PubMed]

•	Multicompartmental cerebellar granule cell model (Diwakar et al. 2009) [Model]

Dover K, Marra C, Solinas S, Popovic M, Subramaniyam S, Zecevic D, D'Angelo E, Goldfarb M (2016) FHF-independent conduction of action potentials along the leak-resistant cerebellar granule cell axon. Nat Commun 7:12895 [Journal] [PubMed]

•	Cerebellum granule cell FHF (Dover et al. 2016) [Model]

Garrido JA, Ros E, D'Angelo E (2013) Spike timing regulation on the millisecond scale by distributed synaptic plasticity at the cerebellum input stage: a simulation study. Front Comput Neurosci 7:64 [Journal] [PubMed]

•	Distributed synaptic plasticity and spike timing (Garrido et al. 2013) [Model]

Geminiani A, Casellato C, Antonietti A, D'Angelo E, Pedrocchi A (2018) A Multiple-Plasticity Spiking Neural Network Embedded in a Closed-Loop Control System to Model Cerebellar Pathologies. Int J Neural Syst 28:1750017 [Journal] [PubMed]

Häusser M, Clark BA (1997) Tonic synaptic inhibition modulates neuronal output pattern and spatiotemporal synaptic integration. Neuron 19:665-78 [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. J Neurophysiol 80:2521-37 [Journal] [PubMed]

•	Network model of the granular layer of the cerebellar cortex (Maex, De Schutter 1998) [Model]
•	Cerebellar granular layer (Maex and De Schutter 1998) [Model]

Magistretti J, Castelli L, Forti L, D'Angelo E (2006) Kinetic and functional analysis of transient, persistent and resurgent sodium currents in rat cerebellar granule cells in situ: an electrophysiological and modelling study. J Physiol 573:83-106 [Journal] [PubMed]

Masoli S, D'Angelo E (2017) Synaptic Activation of a Detailed Purkinje Cell Model Predicts Voltage-Dependent Control of Burst-Pause Responses in Active Dendrites. Front Cell Neurosci 11:278 [Journal] [PubMed]

•	Purkinje cell: Synaptic activation predicts voltage control of burst-pause (Masoli & D'Angelo 2017) [Model]

Nieus T, Sola E, Mapelli J, Saftenku E, Rossi P, D'Angelo E (2006) LTP regulates burst initiation and frequency at mossy fiber-granule cell synapses of rat cerebellum: experimental observations and theoretical predictions. J Neurophysiol 95:686-99 [Journal] [PubMed]

•	Short term plasticity at the cerebellar granule cell (Nieus et al. 2006) [Model]

Rössert C, Solinas S, D'Angelo E, Dean P, Porrill J (2014) Model cerebellar granule cells can faithfully transmit modulated firing rate signals. Front Cell Neurosci 8:304 [Journal] [PubMed]

•	Information transmission in cerebellar granule cell models (Rossert et al. 2014) [Model]

Sudhakar SK, Hong S, Raikov I, Publio R, Lang C, Close T, Guo D, Negrello M, De Schutter E (2017) Spatiotemporal network coding of physiological mossy fiber inputs by the cerebellar granular layer. PLoS Comput Biol 13:e1005754 [Journal] [PubMed]

•	Model of the cerebellar granular network (Sudhakar et al 2017) [Model]

Yamazaki T, Tanaka S (2005) Neural modeling of an internal clock. Neural Comput 17:1032-58 [Journal] [PubMed]

•	Neural modeling of an internal clock (Yamazaki and Tanaka 2008) [Model]

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