Nrf2 affects the efficiency of mitochondrial fatty acid oxidation

Biochemistry, Genetics and Molecular Biology

• Beta Oxidation 100%
• Homeostasis 33%
• Wild Type 33%
• Transcription Factors 33%
• Metabolic Pathway 33%
• Adenosine Triphosphate 33%
• Synapsin I 33%
• Knockout Mouse 33%
• Wild Type Mouse 33%
• Mitochondrion 33%
• Transcription Factor NF E2 P45 Subunit 33%
• Fatty Acid Synthesis 33%
• Mitochondrial Respiration 33%
• Fibroblast 33%

Keyphrases

• NFE2L2 100%
• Mitochondrial Fatty Acid Oxidation 100%
• Fatty Acids 30%
• Transcription Factor 20%
• Fatty Acid Oxidation 20%
• Adaptation 10%
• Regeneration 10%
• Constitutively Active 10%
• Knock-in Mouse Model 10%
• Wild Mice 10%
• Associated Proteins 10%
• Short Chain 10%
• Mouse Embryonic Fibroblasts 10%
• Neurodegeneration 10%
• Chronic Disease 10%
• Kelch-like 10%
• Metabolic Syndrome 10%
• Disease Conditions 10%
• Metabolic Role 10%
• Cytoprotective Response 10%
• Redox Homeostasis 10%
• Respiration 10%
• Fatty Acid Synthesis 10%
• Tissue Slices 10%
• Liver Mitochondria 10%
• Mitochondrial Oxidation 10%
• Intermediary Metabolism 10%
• Glucose Addition 10%
• Heart Mitochondria 10%
• FADH2 10%

Immunology and Microbiology

• Fatty Acid Oxidation 100%
• Homeostasis 33%
• Wild Type 33%
• Transcription Factors 33%
• Knockout Mouse 33%
• Wild Type Mouse 33%
• Transcription Factor NF E2 P45 Subunit 33%
• Mitochondrial Respiration 33%
• Fatty Acid Synthesis 33%
• Liver Mitochondrion 33%
• Heart Mitochondrion 33%
• Tissue Slice 33%
• Fibroblast 33%