2023 PreprintHelp me understand this report
Mesoscale simulations predict the role of synergistic cerebellar plasticity during classical eyeblink conditioning
Abstract: According to Marr’s motor learning theory, plasticity at the parallel fibre to Purkinje cells synapse (pf-PC) is the main substrate responsible for learning sensorimotor contingencies under climbing fibre control. However, the discovery of multiple forms of plasticity distributed over different cerebellar circuit synapses prompts to remap the cerebellar learning sites. Here, we have simulated classical eyeblink conditioning (CEBC) using an advanced spiking cerebellar model embedding upbound and downbound modul…
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