Norman M. White
Norman M. White
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A triple dissociation of memory systems: hippocampus, amygdala, and dorsal striatum.
RJ McDonald, NM White
Behavioral neuroscience 107 (1), 3, 1993
Differential effects of fornix and caudate nucleus lesions on two radial maze tasks: evidence for multiple memory systems
MG Packard, R Hirsh, NM White
Journal of Neuroscience 9 (5), 1465-1472, 1989
Multiple parallel memory systems in the brain of the rat
NM White, RJ McDonald
Neurobiology of learning and memory 77 (2), 125-184, 2002
Parallel information processing in the water maze: evidence for independent memory systems involving dorsal striatum and hippocampus
RJ McDonald, NM White
Behavioral and neural biology 61 (3), 260-270, 1994
Dissociation of hippocampus and caudate nucleus memory systems by posttraining intracerebral injection of dopamine agonists.
MG Packard, NM White
Behavioral neuroscience 105 (2), 295, 1991
Addictive drugs as reinforcers: multiple partial actions on memory systems
NM White
Addiction 91 (7), 921-950, 1996
Parallel information processing in the dorsal striatum: relation to hippocampal function
BD Devan, NM White
Journal of neuroscience 19 (7), 2789-2798, 1999
Dopamine D3 receptor mutant mice exhibit increased behavioral sensitivity to concurrent stimulation of D1 and D2 receptors
M Xu, TE Koeltzow, GT Santiago, R Moratalla, DC Cooper, XT Hu, ...
Neuron 19 (4), 837-848, 1997
Conditioned place preference from intra-accumbens but not intra-caudate amphetamine injections
GD Carr, NM White
Life sciences 33 (25), 2551-2557, 1983
Effects of medial and lateral caudate-putamen lesions on place-and cue-guided behaviors in the water maze: relation to thigmotaxis
BD Devan, RJ McDonald, NM White
Behavioural brain research 100 (1-2), 5-14, 1999
Anatomical disassociation of amphetamine's rewarding and aversive effects: an intracranial microinjection study
GD Carr, NM White
Psychopharmacology 89, 340-346, 1986
Mnemonic functions of the basal ganglia
NM White
Current opinion in neurobiology 7 (2), 164-169, 1997
Reward or reinforcement: what's the difference?
NM White
Neuroscience & Biobehavioral Reviews 13 (2-3), 181-186, 1989
The lateral nucleus of the amygdala mediates expression of the amphetamine-produced conditioned place preference
N Hiroi, NM White
Journal of Neuroscience 11 (7), 2107-2116, 1991
Hippocampal and nonhippocampal contributions to place learning in rats.
RJ McDonald, NM White
Behavioral neuroscience 109 (4), 579, 1995
Facilitation of acetylcholine release and cognitive performance by an M (2)-muscarinic receptor antagonist in aged memory-impaired
R Quirion, A Wilson, W Rowe, I Aubert, J Richard, H Doods, A Parent, ...
Journal of Neuroscience 15 (2), 1455-1462, 1995
The amphetamine conditioned place preference: differential involvement of dopamine receptor subtypes and two dopaminergic terminal areas
N Hiroi, NM White
Brain research 552 (1), 141-152, 1991
Place conditioning with dopamine D1 and D2 agonists injected peripherally or into nucleus accumbens
NM White, MG Packard, N Hiroi
Psychopharmacology 103, 271-276, 1991
The psychobiology of reinforcers
NM White, PM Milner
Annual review of psychology 43 (1), 443-471, 1992
Acquisition of a spatial conditioned place preference is impaired by amygdala lesions and improved by fornix lesions
NM White, RJ McDonald
Behavioural brain research 55 (2), 269-281, 1993
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