about
Basal forebrain control of wakefulness and cortical rhythms.Targeting β-arrestin2 in the treatment of L-DOPA-induced dyskinesia in Parkinson's disease.Targeting cells with single vectors using multiple-feature Boolean logicEnvironmental enrichment produces a behavioral phenotype mediated by low cyclic adenosine monophosphate response element binding (CREB) activity in the nucleus accumbens.Recombinant Adeno-Associated Virus-mediated rescue of function in a mouse model of Dopamine Transporter Deficiency Syndrome.The GLP-1 agonist exendin-4 attenuates self-administration of sweetened fat on fixed and progressive ratio schedules of reinforcement in rats.Cocaine-induced chromatin remodeling increases brain-derived neurotrophic factor transcription in the rat medial prefrontal cortex, which alters the reinforcing efficacy of cocaine.The GABAergic parafacial zone is a medullary slow wave sleep-promoting center.Pgc-1α overexpression downregulates Pitx3 and increases susceptibility to MPTP toxicity associated with decreased Bdnf.Terminal effects of optogenetic stimulation on dopamine dynamics in rat striatum.Arousal effect of caffeine depends on adenosine A2A receptors in the shell of the nucleus accumbens.Elucidation of G-protein and β-arrestin functional selectivity at the dopamine D2 receptorTargeted genetic manipulations of neuronal subtypes using promoter-specific combinatorial AAVs in wild-type animalsVariation in vasopressin receptor (Avpr1a) expression creates diversity in behaviors related to monogamy in prairie volesOptimized adeno-associated virus 8 produces hepatocyte-specific Cre-mediated recombination without toxicity or affecting liver regeneration.Cross-hemispheric dopamine projections have functional significance.BDNF overexpression in the ventral tegmental area prolongs social defeat stress-induced cross-sensitization to amphetamine and increases ΔFosB expression in mesocorticolimbic regions of rats.Optogenetic stimulation of VTA dopamine neurons reveals that tonic but not phasic patterns of dopamine transmission reduce ethanol self-administration.Acute Depletion of D2 Receptors from the Rat Substantia Nigra Alters Dopamine Kinetics in the Dorsal Striatum and Drug Responsivity.Cannabinoid Receptor Interacting Protein 1a Competition with β-Arrestin for CB1 Receptor Binding Sites.Cannabinoid receptor interacting protein suppresses agonist-driven CB1 receptor internalization and regulates receptor replenishment in an agonist-biased manner.Cannabinoid receptor interacting protein (CRIP1a) attenuates CB1R signaling in neuronal cellsOptogenetically-induced tonic dopamine release from VTA-nucleus accumbens projections inhibits reward consummatory behaviors.A combination of mutations enhances the neurotropism of AAV-2.Overexpression of BDNF in the ventral tegmental area enhances binge cocaine self-administration in rats exposed to repeated social defeat.Reversal of delta 9-tetrahydrocannabinol-induced tolerance by specific kinase inhibitors.Nicotine-induced acute tolerance: studies involving schedule-controlled behavior.NRP/B mutations impair Nrf2-dependent NQO1 induction in human primary brain tumors.CaMKII: a biochemical bridge linking accumbens dopamine and glutamate systems in cocaine seeking.Circuit specificity in the inhibitory architecture of the VTA regulates cocaine-induced behavior.Application of fast-scan cyclic voltammetry for the in vivo characterization of optically evoked dopamine in the olfactory tubercle of the rat brain.Ventral tegmental area D2 receptor knockdown enhances choice impulsivity in a delay-discounting task in rats.Structural divergence among cannabinoids influences membrane dynamics: a 2H solid-state NMR analysisChemogenetic activation of ventral tegmental area GABA neurons, but not mesoaccumbal GABA terminals, disrupts responding to reward-predictive cuesThe novel MAGL inhibitor MJN110 enhances responding to reward-predictive incentive cues by activation of CB1 receptors
P50
Q27319516-2820CD0E-A6EF-4870-AB86-B06C99655D04Q27324174-07062895-E1CE-4CC1-B4FB-799743B548B6Q28241570-B5FD5448-466B-498E-9BDD-60CE2073F7CEQ30494250-5E66EB8C-B74B-4E46-8218-8075A0D1FF62Q33573088-717CA927-3733-42DA-8576-A64F01B205A8Q33787829-67EC4720-1BDA-4C8C-8C09-64DC8ABD700DQ34145195-9637F0B3-B2CC-4040-921C-3831CD923588Q34428218-E9BACDB6-633D-4B8C-8D99-8C7A54DB2E9BQ34473733-210E58E1-35FA-4B83-B5C5-0BE5CC77D59CQ34580584-36299D35-8907-4B9C-BC55-EFFC70032673Q35156606-CE87B1DB-8021-41D2-9936-DCFF04D249A4Q35698989-494C89E1-90C6-4BBF-AC3A-E702AFDA5EB4Q35808747-45EF1B6B-A7E5-456B-9E7E-BCD8ABAF7E41Q36698206-9F6ED762-BB08-4B7A-A15D-2A08BBDE23CDQ36846505-6BBBF8B8-E1A0-4E73-9185-EC0DE4FBD951Q37040687-7599764D-A515-40FD-8F92-B43D1A1C013AQ37172773-674DE412-17F4-4FA4-9B95-8478DF25AE49Q37342787-E8FB318F-028D-4FCA-8C21-9B7EDD2C453EQ37592641-0FDB581E-5008-41BE-B328-0D19A268980BQ38728533-744471DE-520B-4DB4-ABCA-29644332605EQ38738659-2E28EC83-9FF3-4CA0-8036-3803DA33E787Q38935678-BAA99282-4848-4D0B-8CB9-EA7977F4A455Q39598037-D93DD743-AD1F-4AE6-A0B1-D1C85F09F842Q40384910-91FA8E71-EDC8-42A9-91BC-ABE6793CED4EQ40765503-50B03BEA-CE7B-496F-BD99-9B0E7E2EA85CQ44903992-14988DA5-5CFF-4293-BB57-B0ABB578885DQ45082116-E29D9100-1923-48F9-A6E2-F4B0BCE2E5BBQ46266289-B0BE059B-EA0B-49B0-A131-381F0B683615Q46751653-5465F745-DCDB-48E4-8207-D0B110B4829CQ47338872-B5A72A01-8735-4A00-95C7-F122CBFAB4C9Q47437020-00B551D8-13BA-410A-9390-208EA5886623Q47559633-1E6C9E7B-CA34-4982-BB94-032004712ACDQ80445737-7643160C-FB7D-427A-830B-C6AC706C1F41Q89014533-E271FF3A-A78A-489D-B2C4-7D21B14D18D0Q90816969-F50C5E01-5674-47F8-B80E-F0366F2D5CFE
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Caroline E Bass
@fr
Caroline E. Bass
@en
Caroline E. Bass
@es
Caroline E. Bass
@nl
Caroline E. Bass
@sl
type
label
Caroline E Bass
@fr
Caroline E. Bass
@en
Caroline E. Bass
@es
Caroline E. Bass
@nl
Caroline E. Bass
@sl
prefLabel
Caroline E Bass
@fr
Caroline E. Bass
@en
Caroline E. Bass
@es
Caroline E. Bass
@nl
Caroline E. Bass
@sl
P106
P1153
21233703300
P21
P2798
P31
P496
0000-0002-5856-6387