Keyphrases
Estrogen Receptor
100%
Skeletal muscle
100%
Exercise Intolerance
100%
Severe-intensity Exercise
100%
Oxidative Capacity
14%
Exercise Capacity
14%
Soleus
14%
Oxidative muscle
14%
Oxidative Metabolism
9%
Receptor Isoforms
9%
Glycolytic
9%
Physical Activity
4%
Receptor Expression
4%
Oxidative Phosphorylation (OXPHOS)
4%
Gene Defects
4%
Energy Metabolism
4%
Whole-body
4%
Mitochondrial Function
4%
Lipids
4%
Receptor Activity
4%
Receptor Function
4%
Glucose Homeostasis
4%
Tricarboxylic Acid Cycle (TCA cycle)
4%
Relative Contribution
4%
Transcriptome
4%
Myopathy
4%
Gene Expression Programming
4%
Muscle Gene Expression
4%
Energy Homeostasis
4%
Metabolism-related Genes
4%
Isoform-specific
4%
Human Skeletal muscle
4%
Amino Acid Metabolism
4%
Branched-chain Amino Acids
4%
Exercise Bout
4%
Functional Redundancy
4%
Glycolytic muscle
4%
Whole-body Metabolism
4%
Transcriptional Defect
4%
Lipid Utilization
4%
Muscle Oxidative Capacity
4%
Skeletal muscle Oxidative Metabolism
4%
Minicore
4%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
Estrogen-Related Receptor
100%
Mouse
33%
Isoform
14%
Exercise
14%
Aerobic Metabolism
14%
Gene Expression
9%
Lipid
9%
Metabolic Pathway
4%
Homeostasis
4%
Transcriptome
4%
Energy Metabolism
4%
Physical Activity
4%
Amino Acid Metabolism
4%
Medicine and Dentistry
Multiminicore Disease
11%