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Biology
Neurobiology/Neuroscience
Neurobiology
1. Introduction to Neurobiology
2. Cellular and Molecular Foundations
3. Action Potentials and Electrical Signaling
4. Synaptic Transmission
5. Nervous System Development
6. Sensory Systems
7. Motor Systems
8. Regulatory and Integrative Systems
9. Learning, Memory, and Plasticity
10. Higher Cognitive Functions
11. Emotion and Motivation
12. Pathophysiology and Disorders
13. Research Methods and Techniques
Learning, Memory, and Plasticity
Types of Learning and Memory
Declarative Memory
Episodic Memory
Autobiographical Events
Temporal Context
Semantic Memory
Factual Knowledge
Conceptual Information
Non-Declarative Memory
Procedural Memory
Motor Skills
Cognitive Skills
Associative Learning
Classical Conditioning
Operant Conditioning
Non-Associative Learning
Habituation
Sensitization
Priming
Perceptual Priming
Conceptual Priming
Cellular Mechanisms of Plasticity
Synaptic Plasticity
Homosynaptic Plasticity
LTP Mechanisms
LTD Mechanisms
Heterosynaptic Plasticity
Associative LTP
Metaplasticity
Homeostatic Plasticity
Synaptic Scaling
Intrinsic Excitability
Molecular Mechanisms
NMDA Receptor Function
Calcium Signaling
Protein Kinases
CaMKII
PKA
PKC
Gene Expression
CREB Signaling
Immediate Early Genes
Protein Synthesis
Local Translation
Synaptic Tagging
Structural Plasticity
Dendritic Spine Changes
Synapse Formation
Synapse Elimination
Adult Neurogenesis
Brain Structures in Memory
Hippocampal Formation
Hippocampal Subfields
CA1
CA3
Dentate Gyrus
Entorhinal Cortex
Memory Consolidation
Spatial Memory
Pattern Separation
Pattern Completion
Amygdala
Emotional Memory
Fear Conditioning
Memory Modulation
Neocortex
Distributed Storage
Cortical Consolidation
Semantic Networks
Cerebellum
Motor Learning
Associative Learning
Error-Based Learning
Striatum
Habit Learning
Procedural Memory
Reward Learning
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10. Higher Cognitive Functions