scholarly article | Q13442814 |
P50 | author | Joshua L Plotkin | Q56499983 |
Joshua A Goldberg | Q56501403 | ||
P2093 | author name string | Joshua A Goldberg | |
Joshua L Plotkin | |||
P2860 | cites work | Complex autonomous firing patterns of striatal low-threshold spike interneurons | Q24614475 |
Regulation of parkinsonian motor behaviours by optogenetic control of basal ganglia circuitry | Q24630976 | ||
A direct GABAergic output from the basal ganglia to frontal cortex. | Q26254039 | ||
A novel functionally distinct subtype of striatal neuropeptide Y interneuron | Q28253184 | ||
GABAergic circuits mediate the reinforcement-related signals of striatal cholinergic interneurons | Q28255137 | ||
Activity-dependent scaling of quantal amplitude in neocortical neurons | Q28264163 | ||
Long-term Potentiation in the Striatum is Unmasked by Removing the Voltage-dependent Magnesium Block of NMDA Receptor Channels. | Q52079554 | ||
Excitatory extrinsic afferents to striatal interneurons and interactions with striatal microcircuitry. | Q52685387 | ||
A silent eligibility trace enables dopamine-dependent synaptic plasticity for reinforcement learning in the mouse striatum. | Q53421741 | ||
Striatonigral neurons divide into two distinct morphological-physiological phenotypes after chronic L-DOPA treatment in parkinsonian rats. | Q55546568 | ||
Functional anatomy of the basal ganglia. I. The cortico-basal ganglia-thalamo-cortical loop | Q56093340 | ||
Anatomical and physiological properties of the cortical and thalamic innervations of neostriatal tissue grafts | Q68684395 | ||
Efferent projections of the subthalamic nucleus in the rat: light and electron microscopic analysis with the PHA-L method | Q68996730 | ||
Single neostriatal efferent axons in the globus pallidus: a light and electron microscopic study | Q70844807 | ||
Effect of parkinsonian signs and symptoms of bilateral subthalamic nucleus stimulation | Q72395601 | ||
High dosage anticholinergic therapy in dystonia | Q72560936 | ||
The local electric changes associated with repetitive action in a non-medullated axon | Q80317302 | ||
Deep brain stimulation | Q80477367 | ||
Medical treatment of dystonia | Q87159350 | ||
Identification and Characterization of a Novel Spontaneously Active Bursty GABAergic Interneuron in the Mouse Striatum | Q88777959 | ||
Projection subtypes of rat neostriatal matrix cells revealed by intracellular injection of biocytin | Q28264640 | ||
Dopaminergic neurons inhibit striatal output through non-canonical release of GABA | Q28276335 | ||
Electrophysiological and morphological characteristics and synaptic connectivity of tyrosine hydroxylase-expressing neurons in adult mouse striatum | Q28282902 | ||
'Rejuvenation' protects neurons in mouse models of Parkinson's disease | Q28305585 | ||
A critical time window for dopamine actions on the structural plasticity of dendritic spines | Q28397378 | ||
Impaired TrkB receptor signaling underlies corticostriatal dysfunction in Huntington's disease | Q29144918 | ||
Parallel Organization of Functionally Segregated Circuits Linking Basal Ganglia and Cortex | Q29391304 | ||
D1 and D2 dopamine receptor-regulated gene expression of striatonigral and striatopallidal neurons | Q29615480 | ||
The functional anatomy of basal ganglia disorders | Q29617461 | ||
Primate models of movement disorders of basal ganglia origin | Q29618489 | ||
Functional architecture of basal ganglia circuits: neural substrates of parallel processing | Q29618729 | ||
Dichotomous dopaminergic control of striatal synaptic plasticity | Q30493521 | ||
Presynaptic BDNF promotes postsynaptic long-term potentiation in the dorsal striatum | Q30497250 | ||
RGS4 is required for dopaminergic control of striatal LTD and susceptibility to parkinsonian motor deficits | Q30504550 | ||
Concurrent activation of striatal direct and indirect pathways during action initiation. | Q30579307 | ||
Thalamic gating of corticostriatal signaling by cholinergic interneurons. | Q30583147 | ||
Relationship between oscillatory activity in the cortico-basal ganglia network and parkinsonism in MPTP-treated monkeys | Q30611028 | ||
Cell type-specific plasticity of striatal projection neurons in parkinsonism and L-DOPA-induced dyskinesia | Q30650489 | ||
Endocannabinoid Modulation of Orbitostriatal Circuits Gates Habit Formation | Q30773183 | ||
The neural network of the basal ganglia as revealed by the study of synaptic connections of identified neurones | Q33256442 | ||
Autonomous initiation and propagation of action potentials in neurons of the subthalamic nucleus | Q33373618 | ||
Differential excitability and modulation of striatal medium spiny neuron dendrites | Q33382961 | ||
Differential loss of striatal projection neurons in Huntington disease | Q33637273 | ||
Decreased number of parvalbumin and cholinergic interneurons in the striatum of individuals with Tourette syndrome | Q33758561 | ||
Differential processing of thalamic information via distinct striatal interneuron circuits. | Q33815670 | ||
Convergent cortical innervation of striatal projection neurons | Q33858943 | ||
Histochemically distinct compartments in the striatum of human, monkeys, and cat demonstrated by acetylthiocholinesterase staining | Q33861374 | ||
Inhibitory control of neostriatal projection neurons by GABAergic interneurons | Q33861738 | ||
A basal ganglia pacemaker formed by the subthalamic nucleus and external globus pallidus | Q33871845 | ||
High-frequency synchronization of neuronal activity in the subthalamic nucleus of parkinsonian patients with limb tremor | Q33920933 | ||
The selective vulnerability of striatopallidal neurons | Q33939097 | ||
Altered parvalbumin-positive neuron distribution in basal ganglia of individuals with Tourette syndrome | Q33947856 | ||
Move to the rhythm: oscillations in the subthalamic nucleus-external globus pallidus network. | Q34148732 | ||
Cholinergic interneurons control local circuit activity and cocaine conditioning | Q34155319 | ||
Opioids induce dissociable forms of long-term depression of excitatory inputs to the dorsal striatum | Q34180202 | ||
Corticostriatal projection neurons – dichotomous types and dichotomous functions | Q34315364 | ||
Muscarinic modulation of striatal function and circuitry. | Q37973621 | ||
The cerebellum in Parkinson's disease | Q38081095 | ||
Active decorrelation in the basal ganglia | Q38124656 | ||
Corticostriatal synaptic adaptations in Huntington's disease | Q38362877 | ||
Rapid target-specific remodeling of fast-spiking inhibitory circuits after loss of dopamine. | Q38366676 | ||
Striatal cholinergic interneurons and cortico-striatal synaptic plasticity in health and disease | Q38533480 | ||
Pathophysiology of L-dopa-induced motor and non-motor complications in Parkinson's disease | Q38553874 | ||
Genetic-Based Dissection Unveils the Inputs and Outputs of Striatal Patch and Matrix Compartments. | Q38827117 | ||
Intrinsic dynamics and synaptic inputs control the activity patterns of subthalamic nucleus neurons in health and in Parkinson's disease | Q38905916 | ||
Cell-type-specific inhibition of the dendritic plateau potential in striatal spiny projection neurons. | Q39151121 | ||
Recurrent collateral connections of striatal medium spiny neurons are disrupted in models of Parkinson's disease | Q39732881 | ||
Synaptically driven state transitions in distal dendrites of striatal spiny neurons | Q39733559 | ||
Role of the basal ganglia in the initiation of saccadic eye movements | Q39737680 | ||
A Golgi study of neuronal types in the neostriatum of monkeys | Q40887852 | ||
Striatal interneurones: chemical, physiological and morphological characterization | Q40991491 | ||
Reversal of experimental parkinsonism by lesions of the subthalamic nucleus | Q41241320 | ||
Interneuronal Nitric Oxide Signaling Mediates Post-synaptic Long-Term Depression of Striatal Glutamatergic Synapses. | Q41412530 | ||
The control of walking / Keir Pearson. - (12.1976) | Q41950929 | ||
Dichotomous organization of the external globus pallidus. | Q42108476 | ||
The connexions of the striatum and globus pallidus: synthesis and speculation. | Q42439040 | ||
Dopaminergic Modulation of Axon Collaterals Interconnecting Spiny Neurons of the Rat Striatum | Q42450993 | ||
Globus pallidus discharge is coincident with striatal activity during global slow wave activity in the rat. | Q42452354 | ||
Long-term synaptic depression in the striatum: physiological and pharmacological characterization | Q42453585 | ||
Membrane potential synchrony of simultaneously recorded striatal spiny neurons in vivo | Q42459527 | ||
The acquisition of goal-directed actions generates opposing plasticity in direct and indirect pathways in dorsomedial striatum. | Q42461912 | ||
Selective innervation of neostriatal interneurons by a subclass of neuron in the globus pallidus of the rat. | Q42463448 | ||
Spike synchronization in the cortex/basal-ganglia networks of Parkinsonian primates reflects global dynamics of the local field potentials. | Q42464017 | ||
Abnormal spontaneous activity of globus pallidus neurons in monkeys with MPTP-induced parkinsonism | Q42464540 | ||
HCN2 and HCN1 channels govern the regularity of autonomous pacemaking and synaptic resetting in globus pallidus neurons. | Q42470140 | ||
Input- and cell-type-specific endocannabinoid-dependent LTD in the striatum. | Q42470816 | ||
Cortical and thalamic innervation of direct and indirect pathway medium-sized spiny neurons in mouse striatum. | Q42479388 | ||
A measure of striatal function predicts motor stereotypy. | Q42485259 | ||
Bidirectional activity-dependent plasticity at corticostriatal synapses. | Q42487664 | ||
Early loss of neostriatal striosome neurons in Huntington's disease | Q42487671 | ||
Competition between feedback loops underlies normal and pathological dynamics in the basal ganglia. | Q42492736 | ||
Deficit of striatal parvalbumin-reactive GABAergic interneurons and decreased basal ganglia output in a genetic rodent model of idiopathic paroxysmal dystonia. | Q42493519 | ||
Calcium dynamics predict direction of synaptic plasticity in striatal spiny projection neurons | Q42493834 | ||
The primate subthalamic nucleus. II. Neuronal activity in the MPTP model of parkinsonism | Q42493851 | ||
A Ca(2+) threshold for induction of spike-timing-dependent depression in the mouse striatum. | Q42494007 | ||
Immunohistochemical demonstration of differential substance P-, met-enkephalin-, and glutamic-acid-decarboxylase-containing cell body and axon distributions in the corpus striatum of the cat. | Q42495375 | ||
Relationship between EEG potentials and intracellular activity of striatal and cortico-striatal neurons: an in vivo study under different anesthetics | Q42501954 | ||
Endocannabinoid-mediated rescue of striatal LTD and motor deficits in Parkinson's disease models | Q42508054 | ||
Electrophysiological and morphological changes in striatal spiny neurons in R6/2 Huntington's disease transgenic mice | Q42513638 | ||
Loss of Hyperdirect Pathway Cortico-Subthalamic Inputs Following Degeneration of Midbrain Dopamine Neurons. | Q42515061 | ||
Tonic mGluR5/CB1-dependent suppression of inhibition as a pathophysiological hallmark in the striatum of mice carrying a mutant form of huntingtin | Q42517785 | ||
Activity patterns in a model for the subthalamopallidal network of the basal ganglia. | Q42519529 | ||
Target selectivity of feedforward inhibition by striatal fast-spiking interneurons. | Q42519756 | ||
Enhanced synchrony among primary motor cortex neurons in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine primate model of Parkinson's disease. | Q42521926 | ||
Neuronal synchronization of tonically active neurons in the striatum of normal and parkinsonian primates | Q42526111 | ||
Neurons in the globus pallidus do not show correlated activity in the normal monkey, but phase-locked oscillations appear in the MPTP model of parkinsonism | Q42528690 | ||
Differential innervation of direct- and indirect-pathway striatal projection neurons. | Q37060461 | ||
Advances in understanding L-DOPA-induced dyskinesia | Q37097551 | ||
Endocannabinoid-dependent plasticity at GABAergic and glutamatergic synapses in the striatum is regulated by synaptic activity | Q37140712 | ||
Presynaptic control of corticostriatal synapses by endogenous GABA. | Q37196301 | ||
Loss of corticostriatal and thalamostriatal synaptic terminals precedes striatal projection neuron pathology in heterozygous Q140 Huntington's disease mice | Q37255018 | ||
Striatal parvalbuminergic neurons are lost in Huntington's disease: implications for dystonia | Q37265881 | ||
Striosome-dendron bouquets highlight a unique striatonigral circuit targeting dopamine-containing neurons | Q37323168 | ||
Cholinergic modulation of multivesicular release regulates striatal synaptic potency and integration | Q37323686 | ||
Striatal plasticity and basal ganglia circuit function | Q37336143 | ||
Distinct roles of synaptic and extrasynaptic GABAAreceptors in striatal inhibition dynamics | Q37343159 | ||
L-DOPA Oppositely Regulates Synaptic Strength and Spine Morphology in D1 and D2 Striatal Projection Neurons in Dyskinesia | Q37344222 | ||
Spectral reconstruction of phase response curves reveals the synchronization properties of mouse globus pallidus neurons | Q37346220 | ||
Cholinergic Interneurons Amplify Corticostriatal Synaptic Responses in the Q175 Model of Huntington's Disease. | Q37507773 | ||
Early dysfunction and progressive degeneration of the subthalamic nucleus in mouse models of Huntington's disease | Q37544836 | ||
Dendritic signalling and homeostatic adaptation | Q37565864 | ||
Dopamine and synaptic plasticity in dorsal striatal circuits controlling action selection | Q37629163 | ||
Neurotransmitter roles in synaptic modulation, plasticity and learning in the dorsal striatum | Q37680104 | ||
Molecular Mechanisms and Potential Therapeutical Targets in Huntington's Disease | Q37776087 | ||
Deep brain stimulation state of the art and novel stimulation targets | Q37796034 | ||
Pathophysiology of Huntington's disease: time-dependent alterations in synaptic and receptor function. | Q37930190 | ||
Corticostriatal and thalamostriatal synapses have distinctive properties | Q42551042 | ||
The pathogenesis of Parkinson's disease: a new hypothesis. | Q42857780 | ||
Adaptive regulation of neuronal excitability by a voltage-independent potassium conductance | Q43601149 | ||
Parvalbumin-immunoreactive neurons in the rat neostriatum: a light and electron microscopic study | Q43752203 | ||
Transient and progressive electrophysiological alterations in the corticostriatal pathway in a mouse model of Huntington's disease. | Q44306949 | ||
Loss of bidirectional striatal synaptic plasticity in L-DOPA-induced dyskinesia | Q44383212 | ||
Differential electrophysiological properties of dopamine D1 and D2 receptor-containing striatal medium-sized spiny neurons | Q44463501 | ||
Quantitative Estimate of Synaptic Inputs to Striatal Neurons during Up and Down StatesIn Vitro | Q44610932 | ||
Lesions of dorsolateral striatum preserve outcome expectancy but disrupt habit formation in instrumental learning | Q44747862 | ||
The nitric oxide-guanylyl cyclase signaling pathway modulates membrane activity States and electrophysiological properties of striatal medium spiny neurons recorded in vivo. | Q44777528 | ||
The glutamate decarboxylase-, leucine enkephalin-, methionine enkephalin- and substance P-immunoreactive neurons in the neostriatum of the rat and cat: evidence for partial population overlap | Q44814465 | ||
Evidence for differential cortical input to direct pathway versus indirect pathway striatal projection neurons in rats. | Q45072853 | ||
D2 dopamine receptor-mediated modulation of voltage-dependent Na+ channels reduces autonomous activity in striatal cholinergic interneurons. | Q45153496 | ||
Cholinergic and dopaminergic mechanisms in Huntington's chorea | Q45303184 | ||
Dopamine modulation of state-dependent endocannabinoid release and long-term depression in the striatum. | Q46279749 | ||
Parvalbumin Interneurons Modulate Striatal Output and Enhance Performance during Associative Learning | Q46538770 | ||
Disrupted dopamine transmission and the emergence of exaggerated beta oscillations in subthalamic nucleus and cerebral cortex | Q46617667 | ||
Exclusive and common targets of neostriatofugal projections of rat striosome neurons: a single neuron-tracing study using a viral vector. | Q46710760 | ||
Dopamine receptor activation is required for corticostriatal spike-timing-dependent plasticity. | Q46717148 | ||
Selective elimination of glutamatergic synapses on striatopallidal neurons in Parkinson disease models. | Q46896175 | ||
Cholinergic modulation of Kir2 channels selectively elevates dendritic excitability in striatopallidal neurons. | Q46973834 | ||
Structural and molecular heterogeneity of calretinin-expressing interneurons in the rodent and primate striatum | Q47316388 | ||
Spontaneous activity of neostriatal cholinergic interneurons in vitro. | Q47904266 | ||
Identification and characterization of neurons with tremor-frequency activity in human globus pallidus | Q47913448 | ||
Spontaneous firing patterns of identified spiny neurons in the rat neostriatum | Q47958948 | ||
Chronic Stress Alters Striosome-Circuit Dynamics, Leading to Aberrant Decision-Making. | Q47964481 | ||
Plasticity in striatopallidal projection neurons mediates the acquisition of habitual actions. | Q48081087 | ||
Single unit analysis of the human ventral thalamic nuclear group: correlation of thalamic "tremor cells" with the 3-6 Hz component of parkinsonian tremor. | Q48104114 | ||
Combined activation of L-type Ca2+ channels and synaptic transmission is sufficient to induce striatal long-term depression. | Q48130770 | ||
Striatal synapses, circuits, and Parkinson's disease | Q48138673 | ||
Intracellular study of rat substantia nigra pars reticulata neurons in an in vitro slice preparation: electrical membrane properties and response characteristics to subthalamic stimulation | Q48170213 | ||
Activation of M1-like muscarinic receptors is required for the induction of corticostriatal LTP. | Q48226289 | ||
Cholinergic interneurons control the excitatory input to the striatum. | Q48313833 | ||
Selective remodeling of glutamatergic transmission to striatal cholinergic interneurons after dopamine depletion | Q48329427 | ||
Striatal dopamine release is triggered by synchronized activity in cholinergic interneurons | Q48441601 | ||
Progressive lenticular degeneration: a familial nervous disease associated with cirrhosis of the liver, by S. A. Kinnier Wilson, (From the National Hospital, and the Laboratory of the National Hospital, Queen Square, London) Brain 1912: 34; 295-509. | Q48483451 | ||
RGS4-dependent attenuation of M4 autoreceptor function in striatal cholinergic interneurons following dopamine depletion | Q48540394 | ||
The neostriatal mosaic: compartmentalization of corticostriatal input and striatonigral output systems | Q48614166 | ||
The striatopallidal and striatonigral projections: two distinct fiber systems in primate | Q48656671 | ||
The striatal cholinergic interneuron: synaptic target of dopaminergic terminals? | Q48711633 | ||
Spontaneous release of acetylcholine in striatum is preferentially regulated by inhibitory dopamine D2 receptors | Q48828527 | ||
High frequency stimulation of the internal Globus Pallidus (GPi) simultaneously improves parkinsonian symptoms and reduces the firing frequency of GPi neurons in the MPTP-treated monkey | Q48939278 | ||
Large neostriatal neurons in the rat: An electron microscopic study of gold-toned Golgi-stained cells | Q48942024 | ||
Channel density distributions explain spiking variability in the globus pallidus: a combined physiology and computer simulation database approach. | Q49046385 | ||
The origins of two-state spontaneous membrane potential fluctuations of neostriatal spiny neurons. | Q49048418 | ||
Fast-Spiking Interneurons Supply Feedforward Control of Bursting, Calcium, and Plasticity for Efficient Learning | Q50098107 | ||
GABAergic circuits control spike-timing-dependent plasticity. | Q50741822 | ||
Intrinsic membrane properties underlying spontaneous tonic firing in neostriatal cholinergic interneurons. | Q51373078 | ||
Physiological, morphological, and histochemical characterization of three classes of interneurons in rat neostriatum | Q51652804 | ||
Age-related changes in striatal nitric oxide synthase-immunoreactive interneurones in the dystonic dtsz mutant hamster. | Q51811057 | ||
Differential loss of thalamostriatal and corticostriatal input to striatal projection neuron types prior to overt motor symptoms in the Q140 knock-in mouse model of Huntington's disease | Q34341619 | ||
Autonomous pacemakers in the basal ganglia: who needs excitatory synapses anyway? | Q34421440 | ||
New roles for the external globus pallidus in basal ganglia circuits and behavior | Q34491617 | ||
The external globus pallidus: progress and perspectives | Q34512150 | ||
HCN channelopathy in external globus pallidus neurons in models of Parkinson's disease. | Q34680409 | ||
Differential electrophysiological changes in striatal output neurons in Huntington's disease. | Q34764514 | ||
Functional connectome of the striatal medium spiny neuron. | Q34782208 | ||
Regulation of dendritic calcium release in striatal spiny projection neurons | Q34961512 | ||
Serotonin induces long-term depression at corticostriatal synapses | Q35040674 | ||
Functional correlates of exaggerated oscillatory activity in basal ganglia output in hemiparkinsonian rats | Q35053960 | ||
Basal Ganglia disorders associated with imbalances in the striatal striosome and matrix compartments | Q35208420 | ||
Dopaminergic modulation of synaptic transmission in cortex and striatum | Q35282100 | ||
Are striatal tyrosine hydroxylase interneurons dopaminergic? | Q35515685 | ||
Zooming in on the small: the plasticity of striatal dendritic spines in L-DOPA-induced dyskinesia | Q35574934 | ||
Dichotomous anatomical properties of adult striatal medium spiny neurons | Q35607269 | ||
The primate basal ganglia: parallel and integrative networks | Q35631862 | ||
Enhanced GABAergic Inputs Contribute to Functional Alterations of Cholinergic Interneurons in the R6/2 Mouse Model of Huntington's Disease | Q35867178 | ||
Neuronal oscillations in the basal ganglia and movement disorders: evidence from whole animal and human recordings. | Q35924076 | ||
Striatal microcircuitry and movement disorders | Q36203205 | ||
Sapap3 deletion causes mGluR5-dependent silencing of AMPAR synapses | Q36329526 | ||
Modulation of striatal projection systems by dopamine | Q36367283 | ||
Novel Striatal GABAergic Interneuron Populations Labeled in the 5HT3a(EGFP) Mouse | Q36368737 | ||
Identification of synaptic terminals of thalamic or cortical origin in contact with distinct medium-size spiny neurons in the rat neostriatum | Q36449606 | ||
Large neurons in the primate neostriatum examined with the combined Golgi-electron microscopic method | Q36492583 | ||
The frequency and distribution of medium-sized neurons with indented nuclei in the primate and rodent neostriatum | Q36494620 | ||
Disinhibition as a basic process in the expression of striatal functions | Q36586037 | ||
Primary motor cortex of the parkinsonian monkey: altered encoding of active movement | Q36693900 | ||
Habit formation coincides with shifts in reinforcement representations in the sensorimotor striatum | Q36729757 | ||
Dopamine-mediated regulation of corticostriatal synaptic plasticity. | Q36762821 | ||
M4 Muscarinic Receptor Signaling Ameliorates Striatal Plasticity Deficits in Models of L-DOPA-Induced Dyskinesia | Q36892615 | ||
Npas1+ Pallidal Neurons Target Striatal Projection Neurons | Q36914301 | ||
Recurrent inhibitory network among striatal cholinergic interneurons | Q36922170 | ||
Multiple sources of striatal inhibition are differentially affected in Huntington's disease mouse models | Q36940345 | ||
Re-emergence of striatal cholinergic interneurons in movement disorders | Q36955354 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | striatum | Q1319792 |
movement disorders | Q2608695 | ||
P304 | page(s) | 359-379 | |
P577 | publication date | 2018-10-31 | |
P1433 | published in | The Neuroscientist | Q7753449 |
P1476 | title | Thinking Outside the Box (and Arrow): Current Themes in Striatal Dysfunction in Movement Disorders | |
P478 | volume | 25 |
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