Behavioral and neurophysiological plasticity within the brain reward circuit and its relationship to addiction.
RECENT PUBLICATIONS
Cooper D.C., Moore, S.M., Staff, N., and Spruston, N., "Psychostimulant-Induced Plasticity of Intrinsic Neuronal Plasticity in the Ventral Subiculum." J Neurosci., 30:9937-9946, 2003
Carr D., Cooper D.C., Surmeier D.J., and Spruston N., "5-HT2A/C Receptor Activation Reduces the Fast and Persistent Sodium Current in Layer V Prefrontal Cortical Neurons via a PKC-dependent Mechanism." J Neurosci., 22:6846-6855, 2002
Cooper D.C., "The Significance of Action Potential Bursting in the Brain Reward Circuit." Neurochem Int, 45(5):333-340, 2002
McClung C.A. Sidiropoulou, K. Vitaterna M. Takahshi J.S. White F.J. Cooper D.C. Nestler E. J., "Regulation of dopaminergic transmission and cocaine reward by the Clock gene." PNAS, 102(26):9377-9381, 2005
Cooper D.C. Chung S. and Spruston N., "Output-mode transitions are controlled by prolonged inactivation of sodium channels in pyramidal neurons of subiculum." PLoS Biology, 3(6):e175, 2005
SIGNIFICANT PUBLICATIONS
Cooper D.C., Moore, S.M., Staff, N., and Spruston, N., "Psychostimulant-Induced Plasticity of Intrinsic Neuronal Plasticity in the Ventral Subiculum." J Neurosci., 30:9937-9946, 2003
Cooper D.C., "The Significance of Action Potential Bursting in the Brain Reward Circuit." Neurochem Int, 41(5):333-340, 2002
Cooper D.C. Chung S. and Spruston N., "Output-mode transitions are controlled by prolonged inactivation of sodium channels in pyramidal neurons of subiculum." PLoS Biology, 3(6):e175, 2005
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