Lack of the p50 subunit of nuclear factor-κb increases the vulnerability of hippocampal neurons to excitotoxic injury

Medicine and Dentistry

• Neuron 100%
• Nuclear Factor 54%
• Alternative Complement Pathway C3 C5 Convertase 45%
• Injury 27%
• Kainic Acid 18%
• Hippocampus 18%
• Binding Affinity 9%
• Cell Culture 9%
• Programmed Cell Death 9%
• DNA Binding 9%
• Oxidative Stress 9%
• Excitotoxin 9%
• Intracellular Calcium 9%
• Brain Ischemia 9%
• Transcription Factor 9%
• Glutamic Acid 9%
• DNA B 9%
• Brain Cell 9%
• Excitotoxicity 9%
• Neuroapoptosis 9%
• Hippocampal Neuronal Culture 9%
• Epileptic Seizure 9%

Neuroscience

• Nuclear Factor 54%
• Alternative Complement Pathway C3 C5 Convertase 45%
• DNA 9%
• In Vivo 9%
• Transcription Factors 9%
• Binding Affinity 9%
• Oxidative Stress 9%
• Ischemia 9%
• Cell Culture 9%
• Glutamic Acid 9%
• Epileptic Seizure 9%
• DNA Binding 9%
• DNA B 9%
• Neuroapoptosis 9%
• Excitotoxicity 9%
• Brain 9%