%D8%AC%D8%B3%D9%85_%D9%85%D8%AE%D8%B7%D8%B7Nucli_estriatStriatumStriatumStriatumCuerpo_estriadoGorputz_ildaskatu%D8%AC%D8%B3%D9%85_%D9%85%D8%AE%D8%B7%D8%B7AivojuovioStriatum%D7%A1%D7%98%D7%A8%D7%99%D7%90%D7%98%D7%95%D7%9DStriatumStriato%E7%B7%9A%E6%9D%A1%E4%BD%93%EC%84%A0%EC%A1%B0%EC%B2%B4Corpus_striatumPr%C4%85%C5%BCkowieCorpo_estriado%D0%9F%D0%BE%D0%BB%D0%BE%D1%81%D0%B0%D1%82%D0%BE%D0%B5_%D1%82%D0%B5%D0%BB%D0%BEPr%C3%BA%C5%BEkovan%C3%A9_telesoStriatumStriatum%D0%A1%D0%BC%D1%83%D0%B3%D0%B0%D1%81%D1%82%D0%B5_%D1%82%D1%96%D0%BB%D0%BEQ1319792%E7%BA%B9%E7%8A%B6%E4%BD%93
about
Heterogeneity and diversity of striatal GABAergic interneuronsInhibition of striatal soluble guanylyl cyclase-cGMP signaling reverses basal ganglia dysfunction and akinesia in experimental parkinsonismProjections from the posterolateral olfactory amygdala to the ventral striatum: neural basis for reinforcing properties of chemical stimuliStriatal BOLD Response Reflects the Impact of Herd Information on Financial DecisionsMechanisms for the modulation of dopamine d(1) receptor signaling in striatal neuronsThe dopamine d1-d2 receptor heteromer in striatal medium spiny neurons: evidence for a third distinct neuronal pathway in Basal GangliaDopamine D1-D2 receptor heteromer in dual phenotype GABA/glutamate-coexpressing striatal medium spiny neurons: regulation of BDNF, GAD67 and VGLUT1/2Striatal medium-sized spiny neurons: identification by nuclear staining and study of neuronal subpopulations in BAC transgenic miceFunctional polymorphisms in PRODH are associated with risk and protection for schizophrenia and fronto-striatal structure and functionCalcyon mRNA expression in the frontal-striatal circuitry and its relationship to vesicular processes and ADHDLevetiracetam Ameliorates L-DOPA-Induced Dyskinesia in Hemiparkinsonian Rats Inducing Critical Molecular Changes in the StriatumAltered fronto-striatal and fronto-cerebellar circuits in heroin-dependent individuals: a resting-state FMRI studyStriatal Dopamine Transporter Alterations in ADHD: Pathophysiology or Adaptation to Psychostimulants? A Meta-AnalysisLarge-scale brain systems in ADHD: beyond the prefrontal-striatal modelDifferential effects of amphetamine isomers on dopamine release in the rat striatum and nucleus accumbens coreDopaminergic Terminals in the Nucleus Accumbens But Not the Dorsal Striatum Corelease GlutamateMechanisms for selection of basic motor programs – roles for the striatum and pallidumDistinct roles of PDE4 and PDE10A in the regulation of cAMP/PKA signaling in the striatumGenetic correlational analysis reveals no association between MPP+ and the severity of striatal dopaminergic damage following MPTP treatment in BXD mouse strainsPrior exposure to a behaviorally sensitizing regimen of d-methamphetamine does not alter the striatal dopaminergic damage induced by a neurotoxic regimenThe Impact of Gender and Estrogen on Striatal Dopaminergic Neurotoxicity.Age as a susceptibility factor in the striatal dopaminergic neurotoxicity observed in the mouse following substituted amphetamine exposure.Striatal dysregulation of Cdk5 alters locomotor responses to cocaine, motor learning, and dendritic morphologyMinocycline attenuates microglial activation but fails to mitigate striatal dopaminergic neurotoxicity: role of tumor necrosis factor- alphaOrganophosphates dysregulate dopamine signaling, glutamatergic neurotransmission, and induce neuronal injury markers in striatumIndirubins deplete striatal monoamines in the intact and MPTP-treated mouse brain and block kainate-induced striatal astrogliosisHydroxyl radical formation is greater in striatal core than in penumbra in a rat model of ischemic strokeA novel G-protein-coupled receptor gene expressed in striatumNolz1 promotes striatal neurogenesis through the regulation of retinoic acid signalingMolecular cloning of the human homolog of a striatum-enriched phosphatase (STEP) gene and chromosomal mapping of the human and murine lociPresynaptic control of striatal glutamatergic neurotransmission by adenosine A1-A2A receptor heteromersSynergistic interaction between adenosine A2A and glutamate mGlu5 receptors: implications for striatal neuronal function.Rhes, a striatal specific protein, mediates mutant-huntingtin cytotoxicityActivin A directs striatal projection neuron differentiation of human pluripotent stem cellsD1-D2 dopamine receptor heterooligomers with unique pharmacology are coupled to rapid activation of Gq/11 in the striatumA role for the POU-III transcription factor Brn-4 in the regulation of striatal neuron precursor differentiationInhibition by dizocilpine (MK-801) of striatal dopamine release induced by MPTP and MPP+: possible action at the dopamine transporterAmphetamine and cocaine induce drug-specific activation of the c-fos gene in striosome-matrix compartments and limbic subdivisions of the striatumMolecular characterization of a protein-tyrosine-phosphatase enriched in striatumStimulation of high-affinity adenosine A2 receptors decreases the affinity of dopamine D2 receptors in rat striatal membranes
P921
Q21090474-F1C63BEF-CD8B-4DC6-A8F7-6B7AE63D8344Q21090973-3EF28799-6753-46A1-A5C0-034E4626874EQ21093343-26AA740C-549E-4336-A1A6-86C69C9C20D0Q21129414-1C69E0B4-1E78-4EB0-91C3-2AD7C23003ECQ21131062-2E05052B-070C-4A88-95B1-441618DEB0F6Q21131063-C8D58618-2CF8-4F8A-A522-678CF891E958Q21134725-79C50317-7DB1-4434-B5A0-6F5D347E7A70Q21143854-8A1E0449-B153-4790-BF13-22E2739BF8C1Q21145031-E013F8A4-E69D-4CF3-BB6C-C5962F27A5A2Q21203803-9C6D23FE-A96D-4C3F-9589-E6A0340940F3Q21284508-35D423D2-9201-407A-A80B-395944A526D3Q21559679-AD7103D9-380A-4C8B-A744-5C241B5B1AF1Q22241859-17D0651D-F23B-4536-B3F3-12CFA2512F90Q22251460-CBBC63AC-E2D3-4DEB-BE58-85EA3B6AFCD1Q22252792-9227D574-A31E-4F90-B2E4-6C1D8248D5DFQ22255504-EFA3251F-0A2A-429E-850A-14FA09557FA4Q22337301-7AFCEBED-1173-4937-BC16-1BF96F46DBA3Q23909635-7EEDFEDB-06C3-4087-B66B-EAAA0A855BB5Q23910633-B4969511-85DA-4451-8DC2-972AD742FC31Q23912103-ABE082F7-EB01-4BF8-A37A-2E930D62DA48Q23912105-4ADB001C-9F5B-4B16-9D35-0464141ABD5FQ23912106-D16D7A8F-CB2C-45D5-B14B-97737A4DFC9BQ23912227-4B392914-6187-4E2D-9A8C-166B182E0522Q23916369-0B9F24B4-3AAE-4DA2-8497-5DD90C22C4E5Q23918184-2AED672B-C7A6-4786-B4BE-09BB34194265Q23919642-C633D4C1-B8A8-4716-A895-269C73525A58Q23921394-6C5B639D-6C98-4A9F-B944-ECBAFAD7A889Q24290450-A43A920C-C217-439B-B98A-F2F8E04648E9Q24297178-B660D2A5-350E-4554-81FB-86F73B4015A2Q24303903-DC1684F3-B2C8-402A-A1E7-A0E9CB052541Q24304896-0CBCFE3F-4761-4E37-82E4-C46B0ED8448DQ24305024-ED75684F-B60B-4266-BCDB-DD97325491A0Q24317318-A2460E0C-7930-434A-B7C5-746954A43503Q24324143-4F17C82D-AC27-4F84-8804-B8A342C407CAQ24338488-BC7A928C-91E9-454E-BBE2-7575A001D519Q24533540-36443533-9722-40E4-8530-8C57FB298DE5Q24552403-999E14B8-04C0-4B8C-8347-086D50E7768DQ24557423-BA4DFA5C-5166-4E49-A5A7-5D7E2E821C85Q24563279-F29D72CD-AE79-4C0A-A61A-236768AB5559Q24563287-D560A944-7BBD-494A-B7D2-5812D8CD21CF
P921
description
Nucleus in the basal ganglia of the brain
@en
name
Aivojuovio
@fi
Corpus striatum
@nl
Gorputz ildaskatu
@eu
Prúžkované teleso
@sk
Prążkowie
@pl
Striato
@it
Striatum
@cs
Striatum
@de
Striatum
@fr
Striatum
@hr
type
label
Aivojuovio
@fi
Corpus striatum
@nl
Gorputz ildaskatu
@eu
Prúžkované teleso
@sk
Prążkowie
@pl
Striato
@it
Striatum
@cs
Striatum
@de
Striatum
@fr
Striatum
@hr
altLabel
Corps strié
@fr
Corps striés
@fr
Corpus striatum
@cs
Corpus striatum
@de
Corpus striatum
@es
Corpus striatum
@ru
Corpus striatum
@sk
Corpus striatum
@tr
Korpus striatum
@tr
Neostriatum
@cs
prefLabel
Aivojuovio
@fi
Corpus striatum
@nl
Gorputz ildaskatu
@eu
Prúžkované teleso
@sk
Prążkowie
@pl
Striato
@it
Striatum
@cs
Striatum
@de
Striatum
@fr
Striatum
@hr
P6366
P486
P508
P646
P1296
P1323
A14.1.09.516
P1402
P1417
science/corpus-striatum
science/neostriatum
P1554
P18
P1813
Str
@en
P31
P361
P373
P3827
neostriatum