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{1551} | ||||
Cell-based reporters reveal in vivo dynamics of dopamine and norepinephrine release in murine cortex
Referenced -- and used by the recent paper Reinforcement learning links spontaneous cortical dopamine impulses to reward, which showed that dopamine signaling itself can come under volitional, operant-conditioning (or reinforcement type) modulation. | ||||
{1500} | ||||
PMID-31942076 A distributional code for value in dopamine based reinforcement learning
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{1494} | ||||
PMID-25258080 A critical time window for dopamine actions on the structural plasticity of dendritic spines
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{1491} | ||||
PMID-29853555 Ultrafast neuronal imaging of dopamine dynamics with designed genetically encoded sensors
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{1421} | ||||
PMID-26516682 Retroactive modulation of spike timing-dependent plasticity by dopamine.
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{1335} | ||||
What are the concentrations of the monoamines in the brain? (Purpose: estimate the required electrochemical sensing area & efficiency)
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{58} | ||||
PMID-16271465 The basal ganglia: learning new tricks and loving it
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{241} | ||||
PMID-17046697 Rapid alterations in corticostriatal ensemble coordination during acute dopamine-dependent motor dysfunction.
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{1150} |
ref: -0
tags: Albin basal ganglia dopamine 1989 parkinsons huntingtons hemiballismus
date: 03-02-2012 00:28 gmt
revision:1
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PMID-2479133 The functional anatomy of basal ganglia disorders.
Saccades:
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{1144} | ||||
PMID-15242667 Anatomical funneling, sparse connectivity and redundancy reduction in the neural networks of the basal ganglia
PMID-15233923 Coincident but distinct messages of midbrain dopamine and striatal tonically active neurons.
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{1136} | ||||
PMID-11285003 Dopaminergic control of synaptic plasticity in the dorsal striatum.
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{1140} |
ref: -0
tags: dopamine reward prediction striatum error striatum orbitofrontal reward
date: 02-24-2012 21:26 gmt
revision:1
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PMID-11105648 Involvement of basal ganglia and orbitofrontal cortex in goal-directed behavior.
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{970} | ||||
PMID-19050033[0] Levodopa enhances synaptic plasticity in the substantia nigra pars reticulata of Parkinson's disease patients
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{206} | ||||
PMID-12077209[0][] High-frequency stimulation of the subthalamic nucleus selectively reverses dopamine denervation-induced cellular defects in the output structures of the basal ganglia in the rat.
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{1135} | ||||
PMID-9835393 Role of dynorphin and enkephalin in the regulation of striatal output pathways and behavior.
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{1080} | ||||
PMID-21059746[0] Involvement of the subthalamic nucleus in impulse control disorders associated with Parkinson’s disease
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{207} | ||||
PMID-11566503[0] Dopamine regulates the impact of the cerebral cortex on the subthalamic nucleus-globus pallidus network
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{1077} | ||||
PMID-17962524[0] Hold your horses: impulsivity, deep brain stimulation, and medication in parkinsonism.
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{1084} | ||||
PMID-19416950[0] Reward-learning and the novelty-seeking personality: a between- and within-subjects study of the effects of dopamine agonists on young Parkinson's patients
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{1067} | ||||
PMID-11765129[0] Cortical network resonance and motor activity in humans.
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{194} | ||||
PMID-9658025[0] Predictive reward signal of dopamine neurons.
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{655} | ||||
PMID-11411161[0] The anterior cingulate cortex. The evolution of an interface between emotion and cognition
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{656} |
ref: Schicknick-2008.11
tags: dopamine plasticity auditory cortex
date: 12-15-2008 04:13 gmt
revision:1
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PMID-18321872[0] Dopaminergic Modulation of Auditory Cortex-Dependent Memory Consolidation through mTOR.
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{653} | ||||
PMID-12371511[0] Dopamine: generalization and bonuses
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{633} | ||||
PMID-18322089[0] Dopamine Receptor Activation Is Required for Corticostriatal Spike-Timing-Dependent Plasticity
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{631} | ||||
PMID-16563737[0] The computational neurobiology of learning and reward
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{629} | ||||
PMID-11257908[0] Multiple Reward Signals in the Brain
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{628} | ||||
PMID-10731222[0] Reward processing in primate orbitofrontal cortex and basal ganglia
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{620} | ||||
PMID-17035544[0] Dopaminergic control of sleep-wake states ____References____ | ||||
{617} | ||||
PMID-12015240[0] Central mechanisms of motor skill learning
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{245} |
ref: AnguianoRodrAguez-2007.02
tags: serotonin learning dopamine
date: 03-12-2007 02:30 gmt
revision:0
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PMID-17126827 Striatal serotonin depletion facilitates rat egocentric learning via dopamine modulation. facilitates - they get better! (more awake than controls? inability to forget?) | ||||
{244} | ||||
PMID-17216714 Motor and cognitive functions of the neostriatum during bilateral blocking of its dopamine receptors
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{243} | ||||
PMID-17035544 Dopaminergic control of sleep-wake states.
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{190} |
ref: Lavin-2005.05
tags: dopamine PFC VTA prefrontal_cortex ventral_tegmentum 2005
date: 02-05-2007 20:37 gmt
revision:1
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PMID-15901782[0]Mesocortical Dopamine Neurons Operate in Distinct Temporal Domains Using Multimodal Signaling
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{133} | ||||
PMID-15727537 The mesocortical dopamine projection to anterior cingulate cortex plays no role in guiding effort-related decisions. | ||||
{193} |
ref: Di-1994.06
tags: dopamine NMDA striatum globus_pallidus ion_channels neurotransmitters
date: 0-0-2007 0:0
revision:0
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PMID-7521083 Modulatory functions of neurotransmitters in the striatum: ACh/dopamine/NMDA interactions.
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{192} | ||||
PMID-11073866 Ventral Tegmental Area Afferents to the Prefrontal Cortex Maintain Membrane Potential ‘Up’ States in Pyramidal Neurons via D1 Dopamine Receptors
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{189} | ||||
http://www.cnsforum.com/imagebank/section/receptor_systems_Dopaminergic/default.aspx
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{153} |
ref: Stefani-1995.09
tags: electrophysiology dopamine basal_ganglia motor learning
date: 0-0-2007 0:0
revision:0
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PMID-8539419 Electrophysiology of dopamine D-1 receptors in the basal ganglia: old facts and new perspectives.
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{113} |
ref: Barik-1996.1
tags: parkinsons dopamine cerebellum D3 essential tremor ET
date: 0-0-2007 0:0
revision:0
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{108} | ||||
http://www.berndporr.me.uk/iso3_sab/
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{77} |
ref: Kilgard-1998.03
tags: dopamine basal_forebrain nucleus_basalis cortical_plasticity
date: 0-0-2007 0:0
revision:0
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PMID-9497289[0] Cortical map reorganization enabled by nucleus basalis activity
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{76} | ||||
experiment: animals initially learn that a light always lights up after pressing a switch which causes the administration of opioids. in successive trials the animal is not rewarded for pressing the switch, however the light (sometimes?) lights up following lever depression - and the animals continue to press the lever in the abscence of reward -- the reward has been transferred to the conditioned stimulus? http://druglibrary.org/schaffer/heroin/ase/chap_4.htm |