about
On the activation of soluble guanylyl cyclase by nitric oxide.Plasticity of Neuron-Glial Transmission: Equipping Glia for Long-Term Integration of Network ActivityHigh-throughput analysis of calcium signalling kinetics in astrocytes stimulated with different neurotransmitters"cAMP-specific" phosphodiesterase contributes to cGMP degradation in cerebellar cells exposed to nitric oxide.Control of cerebellar long-term potentiation by P-Rex-family guanine-nucleotide exchange factors and phosphoinositide 3-kinaseThe receptor-like properties of nitric oxide-activated soluble guanylyl cyclase in intact cells.Rapid desensitization of the nitric oxide receptor, soluble guanylyl cyclase, underlies diversity of cellular cGMP responsesStimulus discrimination in cerebellar Purkinje neuronsCaffeine Modulates Vesicle Release and Recovery at Cerebellar Parallel Fibre Terminals, Independently of Calcium and Cyclic AMP SignallingLocalization of Presynaptic Plasticity Mechanisms Enables Functional Independence of Synaptic and Ectopic Transmission in the Cerebellum.Interactions between Purkinje neurones and Bergmann glia.Glial PlasticityA Bayesian approach to modelling heterogeneous calcium responses in cell populations.Inhibition of nitric oxide-activated guanylyl cyclase by calmodulin antagonists.Differential sensitivity of guanylyl cyclase and mitochondrial respiration to nitric oxide measured using clamped concentrations.Kinetics of nitric oxide-cyclic GMP signalling in CNS cells and its possible regulation by cyclic GMP.A new and simple method for delivering clamped nitric oxide concentrations in the physiological range: application to activation of guanylyl cyclase-coupled nitric oxide receptors.Depression of parallel and climbing fiber transmission to Bergmann glia is input specific and correlates with increased precision of synaptic transmission.Long-term depression of neuron to glial signalling in rat cerebellar cortex.Ectopic release of glutamate contributes to spillover at parallel fibre synapses in the cerebellum.Ectopic release sites lack fast vesicle recycling mechanisms, causing long-term depression of neuron-glial transmission in rat cerebellum.Probabilistic encoding of stimulus strength in astrocyte global calcium signals.
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description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Tomas C Bellamy
@ast
Tomas C Bellamy
@en
Tomas C Bellamy
@es
Tomas C Bellamy
@nl
type
label
Tomas C Bellamy
@ast
Tomas C Bellamy
@en
Tomas C Bellamy
@es
Tomas C Bellamy
@nl
prefLabel
Tomas C Bellamy
@ast
Tomas C Bellamy
@en
Tomas C Bellamy
@es
Tomas C Bellamy
@nl
P106
P1153
6603031121
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P31
P496
0000-0003-0204-7366