Introduction to Plasticity in the Visual System: From Genes to Circuits

Introduction: Plasticity in the Visual System: From Genes to Circuits.- Part I Retinal and Thalamic Plasticity: Synaptic Plasticity and Structural Remodeling of Rod and Cone Cells.- Retinal Remodeling: Circuitry Revisions Triggered by Photoreceptor Degeneration.- Retinal Plasticity and Interactive Cellular Remodeling in Retinal Detachment and Reattachment.- Experience-Dependent Retinal Circuit Rewiring: Involvement of Immediate Early Genes.- Attentional Activation of Cortico-Thalamic Pathways Revealed by Fos Imaging.- Part II Cortical Plasticity: Neuromodulatory Transmitters in Sensory Processing and Plasticity in the Primary Visual Cortex.- Critical Calcium-Regulated Biochemical and Gene Expression Programs in Experience-Dependent Plasticity.- The Molecular Biology of Sensory Map Plasticity in Adult Mammals. Plasticity of Retinotopic Maps in Visual Cortex of Cats and Monkeys After Lesions of the Retinas or Primary Visual Cortex.- Intra-Cortical Inhibition in the Regulation of Receptive Field Properties and Neural Plasticity in the Primary Visual Cortex.- Plasticity in V1 Induced by Perceptual Learning.- Investigating Higher Order Cognitive Functions in the Dorsal (Magnocellular) Stream of Visual Processing.- Dopamine-Dependent Associative Learning of Workload Predicting Cues in the Temporal Lobe of the Monkey.- Part III Theoretical Considerations: Linking Visual Development and Learning to Information Processing: Pre-attentive and Attentive Brain Dynamics.- Conclusion: A Unified Theoretical Framework for Plasticity in Visual Circuitry.

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