about
A neural correlate of predicted and actual reward-value information in monkey pedunculopontine tegmental and dorsal raphe nucleus during saccade tasksThe Pedunculopontine Tegmental Nucleus as a Motor and Cognitive Interface between the Cerebellum and Basal GangliaFacilitation of saccade initiation by brainstem cholinergic system.Sensory-motor gating and cognitive control by the brainstem cholinergic system.Cerebellar plasticity and the ocular following response.Pedunculo-pontine control of visually guided saccades.Gap Effect Abnormalities during a Visually Guided Pro-Saccade Task in Children with Attention Deficit Hyperactivity Disorder.Rhythmic Firing of Pedunculopontine Tegmental Nucleus Neurons in Monkeys during Eye Movement TaskReward prediction error computation in the pedunculopontine tegmental nucleus neurons.Reward prediction-related increases and decreases in tonic neuronal activity of the pedunculopontine tegmental nucleus.Reward and Behavioral Factors Contributing to the Tonic Activity of Monkey Pedunculopontine Tegmental Nucleus Neurons during Saccade Tasks.Fixational saccades reflect volitional action preparation.Different pedunculopontine tegmental neurons signal predicted and actual task rewards.Effects of local nicotinic activation of the superior colliculus on saccades in monkeys.An electrophysiological study of a transient ipsilateral interpositorubral projection in neonatal cats.Individual corticorubral neurons project bilaterally during postnatal development and following early contralateral cortical lesions.Fixational saccade-related activity of pedunculopontine tegmental nucleus neurons in behaving monkeys.A mathematical analysis of the characteristics of the system connecting the cerebellar ventral paraflocculus and extraoculomotor nucleus of alert monkeys during upward ocular following responses.Reinforcement learning for stabilizing an inverted pendulum naturally leads to intermittent feedback control as in human quiet standing.Fixational saccades alter the gap effect.Ocular drift reflects volitional action preparation
P50
Q26827751-33DECC11-86A1-4C32-ABFC-A4AF7D832CEDQ28067156-D662AFC5-FB87-422E-8089-71047364067EQ34460511-CD7E6F2B-3B58-4D9A-8672-5A5068CBDAF0Q34951696-3AD0F01B-6C98-497F-BA4E-4E162DC516B4Q35064688-F8559DAB-072E-48B8-85C1-0888C3A981F8Q35599350-BE16C380-23D0-48E8-9FBC-F8A2FDF58420Q35643827-06FF5D0A-A0F8-4823-8971-44E13C81D048Q35648225-43DBE743-5DB2-48B0-B9CC-536EF685DDC0Q36754066-98EE22C0-8B78-460E-9BA8-3479746259BDQ36841182-CA9D1CCB-FB8D-4EA8-94FE-AD71748D4096Q37407959-1412EC52-2E9C-4C46-A29E-E834023987B9Q39426555-9B7BF2DC-83F9-4C01-8D48-08C8B19F4D64Q42452226-BB41A7C1-6109-4265-872F-6B788EEDB359Q42466952-7C03FA4B-2B6E-40AE-B9D6-A15D9D142B08Q48356085-F800A595-8A31-400B-AD11-E84639877645Q48393409-B6BEAFFE-070B-473A-BC07-ADC7DA23E644Q48765300-BA46AD74-D6CF-4EEF-9E6F-82B5D98CDD2FQ49057248-97A5C379-1AC3-4826-BF38-0B910D970D1BQ50452400-23B8686D-ACBF-496F-9F97-0C487442203EQ52648774-8E047BF1-71D4-4D8E-A52A-33D6A114E0D1Q91344637-3A5C556F-8DBB-4E35-BBEC-121994B9B6D0
P50
description
hulumtues
@sq
researcher
@en
հետազոտող
@hy
name
Yasushi Kobayashi
@ast
Yasushi Kobayashi
@en
Yasushi Kobayashi
@es
Yasushi Kobayashi
@nl
Yasushi Kobayashi
@sl
type
label
Yasushi Kobayashi
@ast
Yasushi Kobayashi
@en
Yasushi Kobayashi
@es
Yasushi Kobayashi
@nl
Yasushi Kobayashi
@sl
prefLabel
Yasushi Kobayashi
@ast
Yasushi Kobayashi
@en
Yasushi Kobayashi
@es
Yasushi Kobayashi
@nl
Yasushi Kobayashi
@sl
P106
P108
P1153
55793281700
P1960
MrOuDfQAAAAJ
P21
P2798
P31
P496
0000-0002-2690-6527
P569
2000-01-01T00:00:00Z