Medicine and Dentistry
DNA Damage
100%
Mitochondrion
100%
Antioxidant
100%
Mitochondrial DNA
100%
MitoQ
100%
Lymphocyte
42%
Placebo
42%
Muscle Tissue
28%
Skeletal Muscle
28%
Supplementation
28%
Free Radical
28%
Cell Nucleus DNA
28%
Ascorbic Acid
28%
Lipid Hydroperoxide
28%
Bioavailability
14%
Genomic Instability
14%
Biological Marker
14%
Quinone Derivative
14%
Exercise Intensity
14%
Tocopherol
14%
Keyphrases
Exercise-induced
100%
Mitochondria-targeted Antioxidants
100%
MitoQ
100%
Mitochondrial DNA Damage
100%
Lymphocytes
42%
Skeletal muscle
28%
Placebo
28%
Muscle Tissue
28%
Mitochondrial DNA
28%
Pre-exercise
28%
Nuclear DNA Damage
28%
Lipid Hydroperoxides
28%
Ascorbyl Free Radical
28%
Genome Stability
14%
Redox-active
14%
Randomized Placebo-controlled Trial
14%
Exercise Trial
14%
Protective Effect
14%
Heart Rate
14%
Quinones
14%
Human muscle
14%
Vitamin E
14%
Healthy Males
14%
Lipophilic Antioxidants
14%
Nuclear Genome
14%
High-intensity Exercise
14%
Mitochondrial Targeting
14%
Biochemistry, Genetics and Molecular Biology
DNA Damage
100%
Mitochondrion
100%
Mitochondrial DNA
100%
Lipid
50%
Lymphocyte
50%
Skeletal Muscle
33%
Nuclear DNA
33%
Genome Instability
16%
Exercise Intensity
16%
Tocopherol
16%
Immunology and Microbiology
DNA Damage
100%
Mitochondrion
100%
Lymphocyte
60%
Skeletal Muscle
40%
Muscle Tissue
40%
Genomic Instability
20%
Tocopherol
20%
Exercise Intensity
20%