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Neural signals of extinction in the inhibitory microcircuit of the ventral midbrainMice infer probabilistic models for timing.Stochastically gating ion channels enable patterned spike firing through activity-dependent modulation of spike probabilityThe inhibitory microcircuit of the substantia nigra provides feedback gain control of the basal ganglia outputDesensitized D2 autoreceptors are resistant to trafficking.L-type Ca2+ channel blockers promote Ca2+ accumulation when dopamine receptors are activated in striatal neuronsDopamine D1 receptors mediate CREB phosphorylation via phosphorylation of the NMDA receptor at Ser897-NR1.RIVETS: a mechanical system for in vivo and in vitro electrophysiology and imaging.Minimally invasive microendoscopy system for in vivo functional imaging of deep nuclei in the mouse brain.Opponent and bidirectional control of movement velocity in the basal ganglia.The basal ganglia: from motor commands to the control of vigor.HCN1 channels constrain synaptically evoked Ca2+ spikes in distal dendrites of CA1 pyramidal neurons.A Designer AAV Variant Permits Efficient Retrograde Access to Projection Neurons.Precise spatial coding is preserved along the longitudinal hippocampal axis.Inputs to the dorsal striatum of the mouse reflect the parallel circuit architecture of the forebrain.A Specific Component of the Evoked Potential Mirrors Phasic Dopamine Neuron Activity during Conditioning.Dopamine Is Required for the Neural Representation and Control of Movement Vigor.The hyperpolarization-activated HCN1 channel is important for motor learning and neuronal integration by cerebellar Purkinje cells.Deconstructing behavioral neuropharmacology with cellular specificity.Individual differences in trait anxiety predict the response of the basolateral amygdala to unconsciously processed fearful faces.A proposed circuit computation in basal ganglia: History-dependent gain.Making the grade with models of persistent activity.The timing of action determines reward prediction signals in identified midbrain dopamine neuronsHigh-throughput synapse-resolving two-photon fluorescence microendoscopy for deep-brain volumetric imaging in vivoA single spectrum of neuronal identities across thalamusEmergence of reward expectation signals in identified dopamine neuronsA repeated molecular architecture across thalamic pathwaysPublisher Correction: A repeated molecular architecture across thalamic pathways
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description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Joshua T Dudman
@ast
Joshua T Dudman
@en
Joshua T Dudman
@es
Joshua T Dudman
@nl
Joshua T Dudman
@sl
type
label
Joshua T Dudman
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Joshua T Dudman
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Joshua T Dudman
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Joshua T Dudman
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Joshua T Dudman
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altLabel
Dudman JT
@en
Joshua Dudman
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Joshua Tate Dudman
@en
prefLabel
Joshua T Dudman
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Joshua T Dudman
@en
Joshua T Dudman
@es
Joshua T Dudman
@nl
Joshua T Dudman
@sl
P106
P1960
Q08iXoEAAAAJ
P21
P2381
P2798
P31
P4012
P496
0000-0002-4436-1057