The role of NMDA receptors in information processing

Keyphrases

• N-methyl-D-aspartate Receptor (NMDAR) 100%
• Information Processing 100%
• NMDA Channels 50%
• Non-NMDA Receptor 33%
• Visual Cortex 25%
• Voltage Dependence 25%
• Switch-like 25%
• Hippocampus 16%
• Spinal Cord 16%
• Cell Properties 16%
• Spontaneous Activity 16%
• Relative Density 16%
• Frequency Function 16%
• Cell-to-cell 8%
• Cell Death 8%
• Nervous System 8%
• Prolonged Effect 8%
• Membrane Potential 8%
• Conductance 8%
• Hippocampal Slice 8%
• Functional Properties 8%
• Sensory Systems 8%
• Motor Neuron 8%
• Nociception 8%
• Frequency Dependence 8%
• Excitatory Input 8%
• Resting Potential 8%
• Calcium Channel 8%
• Motor System 8%
• Afferent Input 8%
• Electric Organ 8%
• Buffering Mechanisms 8%
• Dendritic Spines 8%
• Rise Time 8%
• Calcium-permeable 8%
• Ligand-gated Channels 8%
• Tonic Activity 8%
• Oscillation Frequency 8%
• Frog 8%
• High-frequency Stimulation 8%
• Temporal Summation 8%
• Calcium Buffering 8%
• Enzymatic Process 8%
• Nonlinear Behavior 8%
• Jamming Avoidance Response 8%
• Sharp Threshold 8%
• Low-rise 8%
• Motor Rhythms 8%
• Non-NMDA 8%
• Calcium Flow 8%

Neuroscience

• Information Processing 100%
• NMDA Receptor 100%
• N-Methyl-D-Aspartic Acid 50%
• Behavior (Neuroscience) 37%
• Visual Cortex 18%
• Hippocampus 12%
• Cell Death 6%
• Calcium Channel 6%
• Resting Potential 6%
• Nervous System 6%
• Nociception 6%
• Ligand-Gated Ion Channel 6%
• Dendritic Spine 6%
• Membrane Potential 6%
• Temporal Summation 6%
• Calcium Buffering 6%
• Enzymatic Process 6%
• Receptor 6%