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 [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. Journal of neurophysiology. 101 [PubMed]

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

Gall D, Dupont G. (2019). Tonic Activation of Extrasynaptic NMDA Receptors Decreases Intrinsic Excitability and Promotes Bistability in a Model of Neuronal Activity. International journal of molecular sciences. 21 [PubMed]

• Tonic activation of extrasynaptic NMDA-R promotes bistability (Gall & Dupont 2020) [Model]

Garrido JA, Luque NR, D'Angelo E, Ros E. (2013). Distributed cerebellar plasticity implements adaptable gain control in a manipulation task: a closed-loop robotic simulation Frontiers in neural circuits. 7 [PubMed]

• Distributed cerebellar plasticity implements adaptable gain control (Garrido et al., 2013) [Model]

Masoli S, Ottaviani A, Casali S, D'Angelo E. (2020). Cerebellar Golgi cell models predict dendritic processing and mechanisms of synaptic plasticity. PLoS computational biology. 16 [PubMed]

• Cerebellar Golgi cells, dendritic processing, and synaptic plasticity (Masoli et al 2020) [Model]

Nieus T et al. (2006). LTP regulates burst initiation and frequency at mossy fiber-granule cell synapses of rat cerebellum: experimental observations and theoretical predictions. Journal of neurophysiology. 95 [PubMed]

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