<--- Back to Details
First PageDocument Content
Sleep / Reflexes / Yawn / Catechols / Dopamine agonists / Nucleus Accumbens Core / Apomorphine / Itch / Clomipramine / Neurophysiology / Biology / Medicine
Date: 2014-08-31 04:55:55
Sleep
Reflexes
Yawn
Catechols
Dopamine agonists
Nucleus Accumbens Core
Apomorphine
Itch
Clomipramine
Neurophysiology
Biology
Medicine

Add to Reading List

Source URL: www.baillement.com

Download Document from Source Website

File Size: 246,72 KB

Share Document on Facebook

Similar Documents

Cerebrum / Catecholamines / Neurotransmitters / Pharmacology / Dopamine / Motivation / Nucleus Accumbens Core / L-DOPA / Neuromodulation / Biology / Anatomy / Medicine

Dopamine Modulates Reward-Related Vigor

DocID: 150GN - View Document

Nucleus Accumbens Core / Data mining / Dimension reduction / Multifactor dimensionality reduction

Volume 5, IssuePoints in Bio medica l

DocID: 14ous - View Document

Cerebrum / Neurotransmitters / Catecholamines / Limbic system / G protein coupled receptors / Nucleus Accumbens Core / Dopamine / Oxytocin / Hypothalamus / Brain / Biology / Anatomy

The Journal of Neuroscience, April 28, 2004 • 24(17):4113– 4123 • 4113 Behavioral/Systems/Cognitive Variations in Nucleus Accumbens Dopamine Associated with Individual Differences in Maternal Behavior in the Rat

DocID: 132FR - View Document

Basal ganglia / Catecholamines / Neurotransmitters / Midbrain / Dopamine / Temporal difference learning / Nucleus Accumbens Core / Mesolimbic pathway / Acetylcholine / Brain / Central nervous system / Cerebrum

Vigor in the Face of Fluctuating Rates of Reward: An Experimental Examination Marc Guitart-Masip*, Ulrik R. Beierholm*, Raymond Dolan, Emrah Duzel, and Peter Dayan Abstract

DocID: 12Te6 - View Document

Striatum / Ventral striatum / Nucleus Accumbens Core / Dopamine / Basal ganglia / Nucleus accumbens / Orbitofrontal cortex / Insular cortex / Amygdala / Brain / Anatomy / Cerebrum

4826 • The Journal of Neuroscience, May 2, 2007 • 27(18):4826 – 4831 Behavioral/Systems/Cognitive Differential Encoding of Losses and Gains in the Human Striatum

DocID: 12JLX - View Document