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Direct linkHolahan, Matthew R.; Honegger, Kyle S.; Tabatadze, Nino; Routtenberg, Aryeh – Learning & Memory, 2007
Previous reports have shown that overexpression of the growth- and plasticity-associated protein GAP-43 improves memory. However, the relation between the levels of this protein to memory enhancement remains unknown. Here, we studied this issue in transgenic mice (G-Phos) overexpressing native, chick GAP-43. These G-Phos mice could be divided at…
Descriptors: Animals, Alzheimers Disease, Memory, Animal Behavior
O'Carroll, Colin M.; Martin, Stephen J.; Sandin, Johan; Frenguelli, Bruno; Morris, Richard G. M. – Learning & Memory, 2006
The persistence of new memory traces in the hippocampus, encoded following appropriate activation of glutamatergic receptors and the induction of synaptic plasticity, can be influenced by heterosynaptic activation of neuromodulatory brain systems. We therefore investigated the effects of a hippocampus-specific blockade of dopamine D1/D5 receptors…
Descriptors: Intervals, Brain, Animals, Animal Behavior
