Add to ORKGCerebellar Purkinje cell responses to granule cell synaptic inputs were examined with a computer model including active dendritic conductances. Dendritic P-type Ca^2+ channels amplified postsynaptic responses when the model was firing at a physiological rate. Small synchronous excitatory inputs applied distally on the large dendritic tree resulted in somatic responses of similar size to those generated by more proximal inputs. In contrast, in a passive model the somatic postsynaptic potentials to distal inputs were 76% smaller. The model predicts that the somatic firing response of Purkinje cells is relatively insensitive to the exact dendritic location of synaptic inputs. We describe a mechanism of Ca^2+-mediated synaptic amplification, ba...
This review presents an approach to modeling which we call "experiments in computo". The u...
We have investigated the integration of excitatory (parallel fiber) synaptic inputs in cerebellar Pu...
Cerebellar Purkinje cells are known to receive strong excitatory input from two major pathways origi...
Cerebellar Purkinje cell responses to granule cell synaptic inputs were examined with a computer mod...
We have used a realistic computer model to examine interactions between synaptic and intrinsic volta...
AbstractDendrites of cerebellar Purkinje cells (PCs) respond to brief excitations from parallel fibe...
The dendritic processing in cerebellar Purkinje cells (PCs), which integrate synaptic inputs coming ...
Previous simulations using a realistic model of a cerebellar Purkinje cell suggested that synaptic c...
International audienceDendrites of cerebellar Purkinje cells (PCs) respond to brief excitations from...
The ability of neurons to process synaptic inputs depends critically on their passive electrical pro...
Feedforward excitatory and inhibitory circuits regulate cerebellar output, but how these circuits in...
Climbing fibers (CFs) provide instructive signals driving cerebellar learning, but mechanisms causin...
AbstractThe ability of neurons to process synaptic inputs depends critically on their passive electr...
In neurons with large dendritic arbors, the postsynaptic potentials interact in a complex manner wit...
1. Simultaneous dendritic and somatic patch-clamp recordings were made from Purkinje cells in cerebe...
This review presents an approach to modeling which we call "experiments in computo". The u...
We have investigated the integration of excitatory (parallel fiber) synaptic inputs in cerebellar Pu...
Cerebellar Purkinje cells are known to receive strong excitatory input from two major pathways origi...
Cerebellar Purkinje cell responses to granule cell synaptic inputs were examined with a computer mod...
We have used a realistic computer model to examine interactions between synaptic and intrinsic volta...
AbstractDendrites of cerebellar Purkinje cells (PCs) respond to brief excitations from parallel fibe...
The dendritic processing in cerebellar Purkinje cells (PCs), which integrate synaptic inputs coming ...
Previous simulations using a realistic model of a cerebellar Purkinje cell suggested that synaptic c...
International audienceDendrites of cerebellar Purkinje cells (PCs) respond to brief excitations from...
The ability of neurons to process synaptic inputs depends critically on their passive electrical pro...
Feedforward excitatory and inhibitory circuits regulate cerebellar output, but how these circuits in...
Climbing fibers (CFs) provide instructive signals driving cerebellar learning, but mechanisms causin...
AbstractThe ability of neurons to process synaptic inputs depends critically on their passive electr...
In neurons with large dendritic arbors, the postsynaptic potentials interact in a complex manner wit...
1. Simultaneous dendritic and somatic patch-clamp recordings were made from Purkinje cells in cerebe...
This review presents an approach to modeling which we call "experiments in computo". The u...
We have investigated the integration of excitatory (parallel fiber) synaptic inputs in cerebellar Pu...
Cerebellar Purkinje cells are known to receive strong excitatory input from two major pathways origi...